| |
| /*---------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- A library of wrappers for MPI 2 functions. ---*/ |
| /*--- ---*/ |
| /*---------------------------------------------------------------*/ |
| |
| /* ---------------------------------------------------------------- |
| |
| Notice that the following BSD-style license applies to this one |
| file (mpiwrap.c) only. The rest of Valgrind is licensed under the |
| terms of the GNU General Public License, version 2, unless |
| otherwise indicated. See the COPYING file in the source |
| distribution for details. |
| |
| ---------------------------------------------------------------- |
| |
| This file is part of Valgrind, a dynamic binary instrumentation |
| framework. |
| |
| Copyright (C) 2006-2013 OpenWorks LLP. All rights reserved. |
| |
| Redistribution and use in source and binary forms, with or without |
| modification, are permitted provided that the following conditions |
| are met: |
| |
| 1. Redistributions of source code must retain the above copyright |
| notice, this list of conditions and the following disclaimer. |
| |
| 2. The origin of this software must not be misrepresented; you must |
| not claim that you wrote the original software. If you use this |
| software in a product, an acknowledgment in the product |
| documentation would be appreciated but is not required. |
| |
| 3. Altered source versions must be plainly marked as such, and must |
| not be misrepresented as being the original software. |
| |
| 4. The name of the author may not be used to endorse or promote |
| products derived from this software without specific prior written |
| permission. |
| |
| THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS |
| OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED |
| WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
| ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY |
| DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
| DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE |
| GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS |
| INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, |
| WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING |
| NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS |
| SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| Neither the names of the U.S. Department of Energy nor the |
| University of California nor the names of its contributors may be |
| used to endorse or promote products derived from this software |
| without prior written permission. |
| */ |
| |
| /* Handling of MPI_STATUS{ES}_IGNORE for MPI_Status* arguments. |
| |
| The MPI-2 spec allows many functions which have MPI_Status* purely |
| as an out parameter, to accept the constants MPI_STATUS_IGNORE or |
| MPI_STATUSES_IGNORE there instead, if the caller does not care |
| about the status. See the MPI-2 spec sec 4.5.1 ("Passing |
| MPI_STATUS_IGNORE for Status"). (mpi2-report.pdf, 1615898 bytes, |
| md5=694a5efe2fd291eecf7e8c9875b5f43f). |
| |
| This library handles such cases by allocating a fake MPI_Status |
| object (on the stack) or an array thereof (on the heap), and |
| passing that onwards instead. From the outside the caller sees no |
| difference. Unfortunately the simpler approach of merely detecting |
| and handling these special cases at a lower level does not work, |
| because we need to use information returned in MPI_Status* |
| arguments to paint result buffers, even if the caller doesn't |
| supply a real MPI_Status object. |
| |
| Eg, MPI_Recv. We can't paint the result buffer without knowing how |
| many items arrived; but we can't find that out without passing a |
| real MPI_Status object to the (real) MPI_Recv call. Hence, if the |
| caller did not supply one, we have no option but to use a temporary |
| stack allocated one for the inner call. Ditto, more indirectly |
| (via maybe_complete) for nonblocking receives and the various |
| associated wait/test calls. */ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- includes ---*/ |
| /*------------------------------------------------------------*/ |
| |
| #include <stdio.h> |
| #include <assert.h> |
| #include <unistd.h> /* getpid */ |
| #include <stdlib.h> /* exit */ |
| #include <string.h> /* strstr */ |
| #include <pthread.h> /* pthread_mutex_{lock,unlock} */ |
| |
| /* Include Valgrind magic macros for writing wrappers. */ |
| #include "../memcheck/memcheck.h" |
| |
| /* Include macros for VALGRIND_{DIS,EN}ABLE_ERROR_REPORTING. |
| This is somewhat experimental and hence disable-able, by |
| setting cONFIG_DER to zero. */ |
| #include "../include/valgrind.h" |
| |
| #define cONFIG_DER 1 /* set to 0 to disable */ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Connect to MPI library ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Include headers for whatever MPI implementation the wrappers are to |
| be used with. The configure system will tell us what the path to |
| the chosen MPI implementation is, via -I.. to the compiler. */ |
| #include "mpi.h" |
| |
| /* Where are API symbols? |
| Open MPI lib/libmpi.so, soname = libmpi.so.0 |
| Quadrics MPI lib/libmpi.so, soname = libmpi.so.0 |
| MPICH libmpich.so.1.0, soname = libmpich.so.1.0 |
| |
| A suitable soname to match with is therefore "libmpi*.so*". |
| */ |
| #define I_WRAP_FNNAME_U(_name) \ |
| I_WRAP_SONAME_FNNAME_ZU(libmpiZaZdsoZa,_name) |
| |
| |
| /* Define HAVE_MPI_STATUS_IGNORE iff we have to deal with |
| MPI_STATUS{ES}_IGNORE. */ |
| #if MPI_VERSION >= 2 \ |
| || (defined(MPI_STATUS_IGNORE) && defined(MPI_STATUSES_IGNORE)) |
| # undef HAVE_MPI_STATUS_IGNORE |
| # define HAVE_MPI_STATUS_IGNORE 1 |
| #else |
| # undef HAVE_MPI_STATUS_IGNORE |
| #endif |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Decls ---*/ |
| /*------------------------------------------------------------*/ |
| |
| typedef unsigned char Bool; |
| #define False ((Bool)0) |
| #define True ((Bool)1) |
| |
| /* Word, UWord are machine words - same size as a pointer. This is |
| checked at startup. The wrappers below use 'long' to mean a |
| machine word - this too is tested at startup. */ |
| typedef signed long Word; |
| typedef unsigned long UWord; |
| |
| #if !defined(offsetof) |
| # define offsetof(type,memb) ((UWord)&((type*)0)->memb) |
| #endif |
| |
| /* Find the size of long double image (not 'sizeof(long double)'). |
| See comments in sizeofOneNamedTy. */ |
| static long sizeof_long_double_image ( void ); |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Simple helpers ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* ------ Helpers for debug printing ------ */ |
| |
| /* constant */ |
| static const char* preamble = "valgrind MPI wrappers"; |
| |
| /* established at startup */ |
| static pid_t my_pid = -1; |
| static char* options_str = NULL; |
| static int opt_verbosity = 1; |
| static Bool opt_missing = 0; /* 0:silent; 1:warn; 2:abort */ |
| static Bool opt_help = False; |
| static Bool opt_initkludge = False; |
| |
| static void before ( char* fnname ) |
| { |
| /* This isn't thread-safe wrt 'done' (no locking). It's not |
| critical. */ |
| static int done = 0; |
| if (done == 0) { |
| done = 1; |
| my_pid = getpid(); |
| options_str = getenv("MPIWRAP_DEBUG"); |
| if (options_str) { |
| if (NULL != strstr(options_str, "warn")) |
| opt_missing = 1; |
| if (NULL != strstr(options_str, "strict")) |
| opt_missing = 2; |
| if (NULL != strstr(options_str, "verbose")) |
| opt_verbosity++; |
| if (NULL != strstr(options_str, "quiet")) |
| opt_verbosity--; |
| if (NULL != strstr(options_str, "help")) |
| opt_help = True; |
| if (NULL != strstr(options_str, "initkludge")) |
| opt_initkludge = True; |
| } |
| if (opt_verbosity > 0) |
| fprintf(stderr, "%s %5d: Active for pid %d\n", |
| preamble, my_pid, my_pid); |
| /* Sanity check - that Word/UWord really are machine words. */ |
| assert(sizeof(Word) == sizeof(void*)); |
| assert(sizeof(UWord) == sizeof(void*)); |
| /* Sanity check - char is byte-sized (else address calculations |
| in walk_type don't work. */ |
| assert(sizeof(char) == 1); |
| if (opt_help) { |
| fprintf(stderr, "\n"); |
| fprintf(stderr, "Valid options for the MPIWRAP_DEBUG environment" |
| " variable are:\n"); |
| fprintf(stderr, "\n"); |
| fprintf(stderr, " quiet be silent except for errors\n"); |
| fprintf(stderr, " verbose show wrapper entries/exits\n"); |
| fprintf(stderr, " strict abort the program if a function" |
| " with no wrapper is used\n"); |
| fprintf(stderr, " warn give a warning if a function" |
| " with no wrapper is used\n"); |
| fprintf(stderr, " help display this message, then exit\n"); |
| fprintf(stderr, " initkludge debugging hack; do not use\n"); |
| fprintf(stderr, "\n"); |
| fprintf(stderr, "Multiple options are allowed, eg" |
| " MPIWRAP_DEBUG=strict,verbose\n"); |
| fprintf(stderr, "Note: 'warn' generates output even if 'quiet'" |
| " is also specified\n"); |
| fprintf(stderr, "\n"); |
| fprintf(stderr, "%s %5d: exiting now\n", preamble, my_pid ); |
| exit(1); |
| } |
| if (opt_verbosity > 0) |
| fprintf(stderr, |
| "%s %5d: Try MPIWRAP_DEBUG=help for possible options\n", |
| preamble, my_pid); |
| |
| } |
| if (opt_verbosity > 1) |
| fprintf(stderr, "%s %5d: enter PMPI_%s\n", preamble, my_pid, fnname ); |
| } |
| |
| static __inline__ void after ( char* fnname, int err ) |
| { |
| if (opt_verbosity > 1) |
| fprintf(stderr, "%s %5d: exit PMPI_%s (err = %d)\n", |
| preamble, my_pid, fnname, err ); |
| } |
| |
| static void barf ( char* msg ) |
| { |
| fprintf(stderr, "%s %5d: fatal: %s\n", preamble, my_pid, msg); |
| fprintf(stderr, "%s %5d: exiting now\n", preamble, my_pid ); |
| exit(1); |
| } |
| |
| /* Half-hearted type-showing function (for debugging). */ |
| static void showTy ( FILE* f, MPI_Datatype ty ) |
| { |
| if (ty == MPI_DATATYPE_NULL) fprintf(f,"DATATYPE_NULL"); |
| else if (ty == MPI_BYTE) fprintf(f,"BYTE"); |
| else if (ty == MPI_PACKED) fprintf(f,"PACKED"); |
| else if (ty == MPI_CHAR) fprintf(f,"CHAR"); |
| else if (ty == MPI_SHORT) fprintf(f,"SHORT"); |
| else if (ty == MPI_INT) fprintf(f,"INT"); |
| else if (ty == MPI_LONG) fprintf(f,"LONG"); |
| else if (ty == MPI_FLOAT) fprintf(f,"FLOAT"); |
| else if (ty == MPI_DOUBLE) fprintf(f,"DOUBLE"); |
| else if (ty == MPI_LONG_DOUBLE) fprintf(f,"LONG_DOUBLE"); |
| else if (ty == MPI_UNSIGNED_CHAR) fprintf(f,"UNSIGNED_CHAR"); |
| else if (ty == MPI_UNSIGNED_SHORT) fprintf(f,"UNSIGNED_SHORT"); |
| else if (ty == MPI_UNSIGNED_LONG) fprintf(f,"UNSIGNED_LONG"); |
| else if (ty == MPI_UNSIGNED) fprintf(f,"UNSIGNED"); |
| else if (ty == MPI_FLOAT_INT) fprintf(f,"FLOAT_INT"); |
| else if (ty == MPI_DOUBLE_INT) fprintf(f,"DOUBLE_INT"); |
| else if (ty == MPI_LONG_DOUBLE_INT) fprintf(f,"LONG_DOUBLE_INT"); |
| else if (ty == MPI_LONG_INT) fprintf(f,"LONG_INT"); |
| else if (ty == MPI_SHORT_INT) fprintf(f,"SHORT_INT"); |
| else if (ty == MPI_2INT) fprintf(f,"2INT"); |
| else if (ty == MPI_UB) fprintf(f,"UB"); |
| else if (ty == MPI_LB) fprintf(f,"LB"); |
| # if defined(MPI_WCHAR) |
| else if (ty == MPI_WCHAR) fprintf(f,"WCHAR"); |
| # endif |
| else if (ty == MPI_LONG_LONG_INT) fprintf(f,"LONG_LONG_INT"); |
| # if defined(MPI_LONG_LONG) |
| else if (ty == MPI_LONG_LONG) fprintf(f,"LONG_LONG"); |
| # endif |
| # if defined(MPI_UNSIGNED_LONG_LONG) |
| else if (ty == MPI_UNSIGNED_LONG_LONG) fprintf(f,"UNSIGNED_LONG_LONG"); |
| # endif |
| # if defined(MPI_REAL8) |
| else if (ty == MPI_REAL8) fprintf(f, "REAL8"); |
| # endif |
| # if defined(MPI_REAL4) |
| else if (ty == MPI_REAL4) fprintf(f, "REAL4"); |
| # endif |
| # if defined(MPI_REAL) |
| else if (ty == MPI_REAL) fprintf(f, "REAL"); |
| # endif |
| # if defined(MPI_INTEGER8) |
| else if (ty == MPI_INTEGER8) fprintf(f, "INTEGER8"); |
| # endif |
| # if defined(MPI_INTEGER4) |
| else if (ty == MPI_INTEGER4) fprintf(f, "INTEGER4"); |
| # endif |
| # if defined(MPI_INTEGER) |
| else if (ty == MPI_INTEGER) fprintf(f, "INTEGER"); |
| # endif |
| # if defined(MPI_DOUBLE_PRECISION) |
| else if (ty == MPI_DOUBLE_PRECISION) fprintf(f, "DOUBLE_PRECISION"); |
| # endif |
| # if defined(MPI_COMPLEX) |
| else if (ty == MPI_COMPLEX) fprintf(f, "COMPLEX"); |
| # endif |
| # if defined(MPI_DOUBLE_COMPLEX) |
| else if (ty == MPI_DOUBLE_COMPLEX) fprintf(f, "DOUBLE_COMPLEX"); |
| # endif |
| # if defined(MPI_LOGICAL) |
| else if (ty == MPI_LOGICAL) fprintf(f, "LOGICAL"); |
| # endif |
| # if defined(MPI_2INTEGER) |
| else if (ty == MPI_2INTEGER) fprintf(f, "2INTEGER"); |
| # endif |
| # if defined(MPI_2COMPLEX) |
| else if (ty == MPI_2COMPLEX) fprintf(f, "2COMPLEX"); |
| # endif |
| # if defined(MPI_2DOUBLE_COMPLEX) |
| else if (ty == MPI_2DOUBLE_COMPLEX) fprintf(f, "2DOUBLE_COMPLEX"); |
| # endif |
| # if defined(MPI_2REAL) |
| else if (ty == MPI_2REAL) fprintf(f, "2REAL"); |
| # endif |
| # if defined(MPI_2DOUBLE_PRECISION) |
| else if (ty == MPI_2DOUBLE_PRECISION) fprintf(f, "2DOUBLE_PRECISION"); |
| # endif |
| # if defined(MPI_CHARACTER) |
| else if (ty == MPI_CHARACTER) fprintf(f, "CHARACTER"); |
| # endif |
| else fprintf(f,"showTy:???"); |
| } |
| |
| static void showCombiner ( FILE* f, int combiner ) |
| { |
| switch (combiner) { |
| case MPI_COMBINER_NAMED: fprintf(f, "NAMED"); break; |
| #if defined(MPI_COMBINER_DUP) |
| case MPI_COMBINER_DUP: fprintf(f, "DUP"); break; |
| # endif |
| case MPI_COMBINER_CONTIGUOUS: fprintf(f, "CONTIGUOUS"); break; |
| case MPI_COMBINER_VECTOR: fprintf(f, "VECTOR"); break; |
| #if defined(MPI_COMBINER_HVECTOR_INTEGER) |
| case MPI_COMBINER_HVECTOR_INTEGER: fprintf(f, "HVECTOR_INTEGER"); break; |
| # endif |
| case MPI_COMBINER_HVECTOR: fprintf(f, "HVECTOR"); break; |
| case MPI_COMBINER_INDEXED: fprintf(f, "INDEXED"); break; |
| #if defined(MPI_COMBINER_HINDEXED_INTEGER) |
| case MPI_COMBINER_HINDEXED_INTEGER: fprintf(f, "HINDEXED_INTEGER"); break; |
| # endif |
| case MPI_COMBINER_HINDEXED: fprintf(f, "HINDEXED"); break; |
| #if defined(MPI_COMBINER_INDEXED_BLOCK) |
| case MPI_COMBINER_INDEXED_BLOCK: fprintf(f, "INDEXED_BLOCK"); break; |
| # endif |
| #if defined(MPI_COMBINER_STRUCT_INTEGER) |
| case MPI_COMBINER_STRUCT_INTEGER: fprintf(f, "STRUCT_INTEGER"); break; |
| # endif |
| case MPI_COMBINER_STRUCT: fprintf(f, "STRUCT"); break; |
| #if defined(MPI_COMBINER_SUBARRAY) |
| case MPI_COMBINER_SUBARRAY: fprintf(f, "SUBARRAY"); break; |
| # endif |
| #if defined(MPI_COMBINER_DARRAY) |
| case MPI_COMBINER_DARRAY: fprintf(f, "DARRAY"); break; |
| # endif |
| #if defined(MPI_COMBINER_F90_REAL) |
| case MPI_COMBINER_F90_REAL: fprintf(f, "F90_REAL"); break; |
| # endif |
| #if defined(MPI_COMBINER_F90_COMPLEX) |
| case MPI_COMBINER_F90_COMPLEX: fprintf(f, "F90_COMPLEX"); break; |
| # endif |
| #if defined(MPI_COMBINER_F90_INTEGER) |
| case MPI_COMBINER_F90_INTEGER: fprintf(f, "F90_INTEGER"); break; |
| # endif |
| #if defined(MPI_COMBINER_RESIZED) |
| case MPI_COMBINER_RESIZED: fprintf(f, "RESIZED"); break; |
| # endif |
| default: fprintf(f, "showCombiner:??"); break; |
| } |
| } |
| |
| |
| /* ------ Get useful bits of info ------ */ |
| |
| /* Note, PMPI_Comm_rank/size are themselves wrapped. Should work |
| fine. */ |
| |
| static __inline__ int comm_rank ( MPI_Comm comm ) |
| { |
| int err, r; |
| err = PMPI_Comm_rank(comm, &r); |
| return err ? 0/*arbitrary*/ : r; |
| } |
| |
| static __inline__ int comm_size ( MPI_Comm comm ) |
| { |
| int err, r; |
| err = PMPI_Comm_size(comm, &r); |
| return err ? 0/*arbitrary*/ : r; |
| } |
| |
| static __inline__ Bool count_from_Status( /*OUT*/int* recv_count, |
| MPI_Datatype datatype, |
| MPI_Status* status) |
| { |
| int n; |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| int err = PMPI_Get_count(status, datatype, &n); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS) { |
| *recv_count = n; |
| return True; |
| } else { |
| return False; |
| } |
| } |
| |
| /* It's critical that we can do equality on MPI_Requests. |
| Unfortunately these are opaque objects to us (handles, in the |
| parlance of the MPI 1.1 spec). Fortunately Sec 2.4.1 ("Opaque |
| Objects") specifies that "In C, [...] These [handles] should be |
| types that support assignment and equality operations." Hence the |
| following function should compile for any compliant definition of |
| MPI_Request. */ |
| static __inline__ |
| Bool eq_MPI_Request ( MPI_Request r1, MPI_Request r2 ) |
| { |
| return r1 == r2; |
| } |
| |
| /* Return True if status is MPI_STATUS_IGNORE or MPI_STATUSES_IGNORE. |
| On MPI-1.x platforms which don't have these symbols (and they would |
| only have them if they've been backported from 2.x) always return |
| False. */ |
| static __inline__ |
| Bool isMSI ( MPI_Status* status ) |
| { |
| # if defined(HAVE_MPI_STATUS_IGNORE) |
| return status == MPI_STATUSES_IGNORE || status == MPI_STATUS_IGNORE; |
| # else |
| return False; |
| # endif |
| } |
| |
| /* Get the 'extent' of a type. Note, as per the MPI spec this |
| includes whatever padding would be required when using 'ty' in an |
| array. */ |
| static long extentOfTy ( MPI_Datatype ty ) |
| { |
| int r; |
| MPI_Aint n; |
| r = PMPI_Type_extent(ty, &n); |
| assert(r == MPI_SUCCESS); |
| return (long)n; |
| } |
| |
| /* Free up *ty, if it is safe to do so */ |
| static void maybeFreeTy ( MPI_Datatype* ty ) |
| { |
| int r, n_ints, n_addrs, n_dtys, tycon; |
| |
| r = PMPI_Type_get_envelope( *ty, &n_ints, &n_addrs, &n_dtys, &tycon ); |
| assert(r == MPI_SUCCESS); |
| |
| /* can't free named types */ |
| if (tycon == MPI_COMBINER_NAMED) |
| return; |
| |
| /* some kinds of structs are predefined so we can't free them |
| either. */ |
| if (*ty == MPI_FLOAT_INT || *ty == MPI_DOUBLE_INT |
| || *ty == MPI_LONG_INT || *ty == MPI_2INT |
| || *ty == MPI_SHORT_INT || *ty == MPI_LONG_DOUBLE_INT) |
| return; |
| |
| /* Looks OK - free it. */ |
| if (0) { |
| /* show me what you're about to free .. */ |
| fprintf(stderr, "freeing combiner "); |
| showCombiner(stderr,tycon); |
| fprintf(stderr, " ty= "); |
| showTy(stderr,*ty); |
| fprintf(stderr,"\n"); |
| } |
| r = PMPI_Type_free(ty); |
| assert(r == MPI_SUCCESS); |
| } |
| |
| /* How big is a "named" (base) type? Returns 0 if not known. Note. |
| There is a subtlety, which is that this is required to return the |
| exact size of one item of the type, NOT the size of it when padded |
| suitably to make an array of them. In particular that's why the |
| size of LONG_DOUBLE is computed by looking at the result of doing a |
| long double store, rather than just asking what is the sizeof(long |
| double). |
| |
| For LONG_DOUBLE on x86-linux and amd64-linux my impression is that |
| the right answer is 10 even though sizeof(long double) says 12 and |
| 16 respectively. On ppc32-linux it appears to be 16. |
| |
| Ref: MPI 1.1 doc p18 */ |
| static long sizeofOneNamedTy ( MPI_Datatype ty ) |
| { |
| if (ty == MPI_CHAR) return sizeof(signed char); |
| if (ty == MPI_SHORT) return sizeof(signed short int); |
| if (ty == MPI_INT) return sizeof(signed int); |
| if (ty == MPI_LONG) return sizeof(signed long int); |
| if (ty == MPI_UNSIGNED_CHAR) return sizeof(unsigned char); |
| if (ty == MPI_UNSIGNED_SHORT) return sizeof(unsigned short int); |
| if (ty == MPI_UNSIGNED) return sizeof(unsigned int); |
| if (ty == MPI_UNSIGNED_LONG) return sizeof(unsigned long int); |
| if (ty == MPI_FLOAT) return sizeof(float); |
| if (ty == MPI_DOUBLE) return sizeof(double); |
| if (ty == MPI_BYTE) return 1; |
| if (ty == MPI_LONG_DOUBLE) return sizeof_long_double_image(); |
| if (ty == MPI_PACKED) return 1; |
| if (ty == MPI_LONG_LONG_INT) return sizeof(signed long long int); |
| |
| # if defined(MPI_REAL8) |
| if (ty == MPI_REAL8) return 8; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_REAL4) |
| if (ty == MPI_REAL4) return 4; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_REAL) |
| if (ty == MPI_REAL) return 4; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_INTEGER8) |
| if (ty == MPI_INTEGER8) return 8; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_INTEGER4) |
| if (ty == MPI_INTEGER4) return 4; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_INTEGER) |
| if (ty == MPI_INTEGER) return 4; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_DOUBLE_PRECISION) |
| if (ty == MPI_DOUBLE_PRECISION) return 8; /* MPI2 spec */; |
| # endif |
| |
| /* new in MPI2: */ |
| # if defined(MPI_WCHAR) |
| if (ty == MPI_WCHAR) return 2; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_SIGNED_CHAR) |
| if (ty == MPI_SIGNED_CHAR) return 1; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_UNSIGNED_LONG_LONG) |
| if (ty == MPI_UNSIGNED_LONG_LONG) return 8; /* MPI2 spec */; |
| # endif |
| # if defined(MPI_COMPLEX) |
| if (ty == MPI_COMPLEX) return 2 * 4; /* MPI2 spec */ |
| # endif |
| # if defined(MPI_DOUBLE_COMPLEX) |
| if (ty == MPI_DOUBLE_COMPLEX) return 2 * 8; /* MPI2 spec */ |
| # endif |
| # if defined(MPI_LOGICAL) |
| if (ty == MPI_LOGICAL) return 4; /* MPI2 spec */ |
| # endif |
| # if defined(MPI_2INTEGER) |
| if (ty == MPI_2INTEGER) return 2 * 4; /* undocumented in MPI2 */ |
| # endif |
| # if defined(MPI_2COMPLEX) |
| if (ty == MPI_2COMPLEX) return 2 * 8; /* undocumented in MPI2 */ |
| # endif |
| # if defined(MPI_2DOUBLE_COMPLEX) |
| /* 32: this is how openmpi-1.2.2 behaves on x86-linux, but I have |
| really no idea if this is right. */ |
| if (ty == MPI_2DOUBLE_COMPLEX) return 32; /* undocumented in MPI2 */ |
| # endif |
| # if defined(MPI_2REAL) |
| if (ty == MPI_2REAL) return 2 * 4; /* undocumented in MPI2 */ |
| # endif |
| # if defined(MPI_2DOUBLE_PRECISION) |
| if (ty == MPI_2DOUBLE_PRECISION) return 2 * 8; /* undocumented in MPI2 */ |
| # endif |
| # if defined(MPI_CHARACTER) |
| if (ty == MPI_CHARACTER) return 1; /* MPI2 spec */ |
| # endif |
| |
| /* Note: the following are named structs, not named basic types, |
| and so are not handled here: |
| FLOAT_INT DOUBLE_INT LONG_INT 2INT SHORT_INT LONG_DOUBLE_INT |
| My guess is they are probably for doing max-w-index style |
| reductions, the INT carrying the index of the max/min and the |
| other type its actual value. |
| */ |
| return 0; |
| } |
| |
| |
| /* Find the size of long double image (not 'sizeof(long double)'). |
| See comments in sizeofOneNamedTy. |
| */ |
| static long sizeof_long_double_image ( void ) |
| { |
| long i; |
| unsigned char* p; |
| static long cached_result = 0; |
| |
| /* Hopefully we have it already. */ |
| if (cached_result != 0) { |
| assert(cached_result == 10 || cached_result == 16 || cached_result == 8); |
| return cached_result; |
| } |
| |
| /* No? Then we'll have to compute it. This isn't thread-safe but |
| it doesn't really matter since all races to compute it should |
| produce the same answer. */ |
| p = malloc(64); |
| assert(p); |
| for (i = 0; i < 64; i++) |
| p[i] = 0x55; |
| |
| /* Write a value which isn't known at compile time and therefore |
| must come out of a register. If we just store a constant here, |
| some compilers write more data than a store from a machine |
| register would. Therefore we have to force a store from a |
| machine register by storing a value which isn't known at compile |
| time. Since getpid() will return a value < 1 million, turn it |
| into a zero by dividing by 1e+30. */ |
| *(long double*)(&p[16]) = (long double)(1.0e-30 * (double)getpid()); |
| |
| for (i = 0; i < 16; i++) { |
| assert(p[i] == 0x55); |
| assert(p[i+48] == 0x55); |
| } |
| for (i = 16; i <= 48; i++) { |
| if (p[i] == 0x55) |
| break; |
| } |
| |
| assert(i < 48); |
| assert(i > 16); |
| free(p); |
| cached_result = i - 16; |
| |
| if (0) |
| printf("sizeof_long_double_image: computed %d\n", (int)cached_result); |
| |
| assert(cached_result == 10 || cached_result == 16 || cached_result == 8); |
| return cached_result; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Unpicking datatypes ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static __inline__ |
| void walk_type_array ( void(*f)(void*,long), char* base, |
| MPI_Datatype ty, long count ); |
| |
| |
| /* Walk over all fragments of the object of type 'ty' with base |
| address 'base', and apply 'f' to the start/length of each |
| contiguous fragment. */ |
| static |
| void walk_type ( void(*f)(void*,long), char* base, MPI_Datatype ty ) |
| { |
| int r, n_ints, n_addrs, n_dtys, tycon; |
| long ex, i; |
| int* ints = NULL; |
| MPI_Aint* addrs = NULL; |
| MPI_Datatype* dtys = NULL; |
| |
| /* Stuff for limiting how much complaining text it spews out */ |
| static int complaints = 3; |
| static int last_complained_about_tycon = -987654321; /* presumably bogus */ |
| |
| if (0) |
| printf("walk_type %p\n", (void*)(unsigned long)ty); |
| |
| r = PMPI_Type_get_envelope( ty, &n_ints, &n_addrs, &n_dtys, &tycon ); |
| assert(r == MPI_SUCCESS); |
| |
| /* Handle the base cases fast(er/ish). */ |
| if (tycon == MPI_COMBINER_NAMED) { |
| long sz = sizeofOneNamedTy(ty); |
| if (sz > 0) { |
| f(base, sz); |
| return; |
| } |
| /* Hmm. Perhaps it's a named struct? Unfortunately we can't |
| take them to bits so we have to do a really ugly hack, which |
| makes assumptions about how the MPI implementation has laid |
| out these types. At least Open MPI 1.0.1 appears to put |
| the 'val' field first. MPICH2 agrees. |
| */ |
| if (ty == MPI_2INT) { |
| typedef struct { int val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof(int)); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_LONG_INT) { |
| typedef struct { long val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof(long)); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_DOUBLE_INT) { |
| typedef struct { double val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof(double)); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_SHORT_INT) { |
| typedef struct { short val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof(short)); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_FLOAT_INT) { |
| typedef struct { float val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof(float)); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_LONG_DOUBLE_INT) { |
| typedef struct { long double val; int loc; } Ty; |
| f(base + offsetof(Ty,val), sizeof_long_double_image()); |
| f(base + offsetof(Ty,loc), sizeof(int)); |
| return; |
| } |
| if (ty == MPI_LB || ty == MPI_UB) |
| return; /* have zero size, so nothing needs to be done */ |
| goto unhandled; |
| /*NOTREACHED*/ |
| } |
| |
| if (0) { |
| ex = extentOfTy(ty); |
| printf("tycon 0x%llx %d %d %d (ext %d)\n", |
| (unsigned long long int)tycon, |
| n_ints, n_addrs, n_dtys, (int)ex ); |
| } |
| |
| /* Now safe to do MPI_Type_get_contents */ |
| assert(n_ints >= 0); |
| assert(n_addrs >= 0); |
| assert(n_dtys >= 0); |
| |
| if (n_ints > 0) { |
| ints = malloc(n_ints * sizeof(int)); |
| assert(ints); |
| } |
| if (n_addrs > 0) { |
| addrs = malloc(n_addrs * sizeof(MPI_Aint)); |
| assert(addrs); |
| } |
| if (n_dtys > 0) { |
| dtys = malloc(n_dtys * sizeof(MPI_Datatype)); |
| assert(dtys); |
| } |
| |
| r = PMPI_Type_get_contents( ty, n_ints, n_addrs, n_dtys, |
| ints, addrs, dtys ); |
| assert(r == MPI_SUCCESS); |
| |
| switch (tycon) { |
| |
| case MPI_COMBINER_CONTIGUOUS: |
| assert(n_ints == 1 && n_addrs == 0 && n_dtys == 1); |
| walk_type_array( f, base, dtys[0], ints[0] ); |
| maybeFreeTy( &dtys[0] ); |
| break; |
| |
| case MPI_COMBINER_VECTOR: |
| assert(n_ints == 3 && n_addrs == 0 && n_dtys == 1); |
| ex = extentOfTy(dtys[0]); |
| if (0) |
| printf("vector count %d x (bl %d stride %d)\n", |
| (int)ints[0], (int)ints[1], (int)ints[2]); |
| for (i = 0; i < ints[0]; i++) { |
| walk_type_array( f, base + i * ints[2]/*stride*/ * ex, |
| dtys[0], ints[1]/*blocklength*/ ); |
| } |
| maybeFreeTy( &dtys[0] ); |
| break; |
| |
| case MPI_COMBINER_HVECTOR: |
| assert(n_ints == 2 && n_addrs == 1 && n_dtys == 1); |
| ex = extentOfTy(dtys[0]); |
| if (0) |
| printf("hvector count %d x (bl %d hstride %d)\n", |
| (int)ints[0], (int)ints[1], (int)addrs[0]); |
| for (i = 0; i < ints[0]; i++) { |
| walk_type_array( f, base + i * addrs[0]/*hstride*/, |
| dtys[0], ints[1]/*blocklength*/ ); |
| } |
| maybeFreeTy( &dtys[0] ); |
| break; |
| |
| case MPI_COMBINER_INDEXED: |
| assert(n_addrs == 0 && n_dtys == 1); |
| assert(n_ints > 0); |
| assert(n_ints == 2 * ints[0] + 1); |
| ex = extentOfTy(dtys[0]); |
| for (i = 0; i < ints[0]; i++) { |
| if (0) |
| printf("indexed (elem %d) off %d copies %d\n", |
| (int)i, ints[i+1+ints[0]], ints[i+1] ); |
| walk_type_array( f, base + ex * ints[i+1+ints[0]], |
| dtys[0], ints[i+1] ); |
| } |
| maybeFreeTy( &dtys[0] ); |
| break; |
| |
| case MPI_COMBINER_HINDEXED: |
| assert(n_ints > 0); |
| assert(n_ints == ints[0] + 1); |
| assert(n_addrs == ints[0] && n_dtys == 1); |
| ex = extentOfTy(dtys[0]); |
| for (i = 0; i < ints[0]; i++) { |
| if (0) |
| printf("hindexed (elem %d) hoff %d copies %d\n", |
| (int)i, (int)addrs[i], ints[i+1] ); |
| walk_type_array( f, base + addrs[i], |
| dtys[0], ints[i+1] ); |
| } |
| maybeFreeTy( &dtys[0] ); |
| break; |
| |
| case MPI_COMBINER_STRUCT: |
| assert(n_addrs == n_ints-1); |
| assert(n_dtys == n_ints-1); |
| assert(n_ints > 0); |
| assert(n_ints == ints[0] + 1); |
| for (i = 0; i < ints[0]; i++) { |
| if (0) |
| printf("struct (elem %d limit %d) hoff %d copies %d\n", |
| (int)i, (int)ints[0], (int)addrs[i], (int)ints[i+1]); |
| walk_type_array( f, base + addrs[i], dtys[i], (long)ints[i+1] ); |
| maybeFreeTy( &dtys[i] ); |
| } |
| break; |
| |
| default: |
| goto unhandled; |
| |
| } |
| |
| /* normal exit */ |
| if (ints) free(ints); |
| if (addrs) free(addrs); |
| if (dtys) free(dtys); |
| return; |
| |
| unhandled: |
| /* Complain, but limit the amount of complaining that can happen to |
| the first 3 different unhandled tycons that show up, so as to |
| avoid swamping users with thousands of duplicate messages. */ |
| if (complaints > 0 && tycon != last_complained_about_tycon) { |
| complaints--; |
| last_complained_about_tycon = tycon; |
| if (tycon == MPI_COMBINER_NAMED) { |
| fprintf(stderr, "%s %5d: walk_type: unhandled base type 0x%lx ", |
| preamble, my_pid, (long)ty); |
| showTy(stderr, ty); |
| fprintf(stderr, "\n"); |
| } else { |
| fprintf(stderr, "%s %5d: walk_type: unhandled combiner 0x%lx\n", |
| preamble, my_pid, (long)tycon); |
| } |
| } |
| if (ints) free(ints); |
| if (addrs) free(addrs); |
| if (dtys) free(dtys); |
| if (opt_missing >= 2) |
| barf("walk_type: unhandled combiner, strict checking selected"); |
| } |
| |
| |
| /* Same as walk_type but apply 'f' to every element in an array of |
| 'count' items starting at 'base'. The only purpose of pushing this |
| into a different routine is so it can attempt to optimise the case |
| where the array elements are contiguous and packed together without |
| holes. */ |
| static __inline__ |
| void walk_type_array ( void(*f)(void*,long), char* base, |
| MPI_Datatype elemTy, long count ) |
| { |
| long i, ex; |
| |
| assert(sizeof(unsigned long) == sizeof(char*)); |
| |
| /* First see if we can do this the fast way. */ |
| ex = sizeofOneNamedTy(elemTy); |
| |
| if ( /* ty is a primitive type with power-of-2 size */ |
| (ex == 8 || ex == 4 || ex == 2 || ex == 1) |
| && /* base is suitably aligned for ty */ |
| ( ((unsigned long)base) & (ex-1)) == 0) { |
| |
| /* We're sure it's contiguous, so just paint/check it in one |
| go. */ |
| if (0) printf("walk_type_array fast %ld of size %ld\n", count, ex ); |
| f ( base, count * ex ); |
| |
| } else { |
| |
| /* Bad news. We have to futz with each element individually. |
| This could be very expensive. |
| |
| Note: subtle. If ty is LONG_DOUBLE then the extent will be |
| 12, so the following loop will jump along in steps of 12, but |
| the size painted by walk_type will be 10 since it uses |
| sizeofOneNamedTy to establish the size of base types. Which |
| is what we need to happen. */ |
| ex = extentOfTy(elemTy); |
| if (0) printf("walk_type_array SLOW %ld of size %ld\n", count, ex ); |
| for (i = 0; i < count; i++) |
| walk_type( f, base + i * ex, elemTy ); |
| |
| } |
| } |
| |
| |
| /* Hook so it's visible from outside (can be handy to dlopen/dlsym |
| it) */ |
| void mpiwrap_walk_type_EXTERNALLY_VISIBLE |
| ( void(*f)(void*,long), char* base, MPI_Datatype ty ) |
| { |
| walk_type(f, base, ty); |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Address-range helpers ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* ---------------- |
| Do corresponding checks on memory areas defined using a |
| straightforward (start, length) description. |
| ---------------- |
| */ |
| |
| static __inline__ |
| void check_mem_is_defined_untyped ( void* buffer, long nbytes ) |
| { |
| if (nbytes > 0) { |
| VALGRIND_CHECK_MEM_IS_DEFINED(buffer, nbytes); |
| } |
| } |
| |
| static __inline__ |
| void check_mem_is_addressable_untyped ( void* buffer, long nbytes ) |
| { |
| if (nbytes > 0) { |
| VALGRIND_CHECK_MEM_IS_ADDRESSABLE(buffer, nbytes); |
| } |
| } |
| |
| static __inline__ |
| void make_mem_defined_if_addressable_untyped ( void* buffer, long nbytes ) |
| { |
| if (nbytes > 0) { |
| VALGRIND_MAKE_MEM_DEFINED_IF_ADDRESSABLE(buffer, nbytes); |
| } |
| } |
| |
| static __inline__ |
| void make_mem_defined_if_addressable_if_success_untyped ( int err, |
| void* buffer, long nbytes ) |
| { |
| if (err == MPI_SUCCESS && nbytes > 0) { |
| VALGRIND_MAKE_MEM_DEFINED_IF_ADDRESSABLE(buffer, nbytes); |
| } |
| } |
| |
| |
| /* ---------------- |
| Do checks on memory areas defined using the MPI (buffer, count, |
| type) convention. |
| ---------------- |
| */ |
| |
| /* Check that the specified area is both addressible and contains |
| initialised data, and cause V to complain if not. */ |
| |
| static __inline__ |
| void check_mem_is_defined ( char* buffer, long count, MPI_Datatype datatype ) |
| { |
| walk_type_array( check_mem_is_defined_untyped, buffer, datatype, count ); |
| } |
| |
| |
| /* Check that the specified area is addressible, and cause V to |
| complain if not. Doesn't matter whether the data there is |
| initialised or not. */ |
| |
| static __inline__ |
| void check_mem_is_addressable ( void *buffer, long count, MPI_Datatype datatype ) |
| { |
| walk_type_array( check_mem_is_addressable_untyped, buffer, datatype, count ); |
| } |
| |
| |
| /* Set the specified area to 'defined for each byte which is |
| addressible' state. */ |
| |
| static __inline__ |
| void make_mem_defined_if_addressable ( void *buffer, int count, MPI_Datatype datatype ) |
| { |
| walk_type_array( make_mem_defined_if_addressable_untyped, |
| buffer, datatype, count ); |
| } |
| |
| static __inline__ |
| void |
| make_mem_defined_if_addressable_if_success ( int err, void *buffer, int count, |
| MPI_Datatype datatype ) |
| { |
| if (err == MPI_SUCCESS) |
| make_mem_defined_if_addressable(buffer, count, datatype); |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- The wrappers proper. They are listed in the order ---*/ |
| /*--- in which they appear in "MPI: A Message-Passing ---*/ |
| /*--- Interface Standard, MPIF, Nov 15 2003" (the MPI 1.1 ---*/ |
| /*--- spec. All unimplemented wrappers are listed at the ---*/ |
| /*--- end of the file. The list of function names is ---*/ |
| /*--- taken from the headers of Open MPI svn r9191. ---*/ |
| /*--- Hopefully it is a complete list of all the MPI 2 ---*/ |
| /*--- functions. ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Handy abbreviation */ |
| #define WRAPPER_FOR(name) I_WRAP_FNNAME_U(name) |
| |
| /* Generates (conceptually) a wrapper which does nothing. In |
| fact just generate no wrapper at all. */ |
| #define HAS_NO_WRAPPER(basename) /* */ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 3.2, Blocking Send and Receive Operations ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- {,B,S,R}Send --- */ |
| /* pre: rd: (buf,count,datatype) */ |
| static |
| int generic_Send(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("{,B,S,R}Send"); |
| check_mem_is_defined(buf, count, datatype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_6W(err, fn, buf,count,datatype,dest,tag,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("{,B,S,R}Send", err); |
| return err; |
| } |
| int WRAPPER_FOR(PMPI_Send)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm) { |
| return generic_Send(buf,count,datatype, dest,tag,comm); |
| } |
| int WRAPPER_FOR(PMPI_Bsend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm) { |
| return generic_Send(buf,count,datatype, dest,tag,comm); |
| } |
| int WRAPPER_FOR(PMPI_Ssend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm) { |
| return generic_Send(buf,count,datatype, dest,tag,comm); |
| } |
| int WRAPPER_FOR(PMPI_Rsend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm) { |
| return generic_Send(buf,count,datatype, dest,tag,comm); |
| } |
| |
| /* --- Recv --- */ |
| /* pre: must be writable: (buf,count,datatype) |
| must be writable: status |
| post: make readable: (buf,recv_count,datatype) |
| where recv_count is determined from *status |
| */ |
| int WRAPPER_FOR(PMPI_Recv)(void *buf, int count, MPI_Datatype datatype, |
| int source, int tag, |
| MPI_Comm comm, MPI_Status *status) |
| { |
| OrigFn fn; |
| int err, recv_count = 0; |
| MPI_Status fake_status; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Recv"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_addressable(buf, count, datatype); |
| check_mem_is_addressable_untyped(status, sizeof(*status)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, buf,count,datatype,source,tag,comm,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, status, sizeof(*status)); |
| if (err == MPI_SUCCESS && count_from_Status(&recv_count,datatype,status)) { |
| make_mem_defined_if_addressable(buf, recv_count, datatype); |
| } |
| after("Recv", err); |
| return err; |
| } |
| |
| /* --- Get_count --- */ |
| /* pre: must be readable: *status |
| post: make defined: *count -- don't bother, libmpi will surely do this |
| */ |
| int WRAPPER_FOR(PMPI_Get_count)(MPI_Status* status, |
| MPI_Datatype ty, int* count ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Get_count"); |
| check_mem_is_defined_untyped(status, sizeof(*status)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, status,ty,count); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Get_count", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 3.7, Nonblocking communication ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Maintain a table that makes it possible for the wrappers to |
| complete MPI_Irecv successfully. |
| |
| The issue is that MPI_Irecv states the recv buffer and returns |
| immediately, giving a handle (MPI_Request) for the transaction. |
| Later the user will have to poll for completion with MPI_Wait etc, |
| and at that point these wrappers have to paint the recv buffer. |
| But the recv buffer details are not presented to MPI_Wait - only |
| the handle is. We therefore have to use a shadow table |
| (sReqs{,_size,_used,_lock}) which associates uncompleted |
| MPI_Requests with the corresponding buffer address/count/type. |
| |
| Only read requests are placed in the table, since there is no need |
| to do any buffer painting following completion of an Isend - all |
| the checks for that are done at the time Isend is called. |
| |
| Care has to be take to remove completed requests from the table. |
| |
| Access to the table is guarded by sReqs_lock so as to make it |
| thread-safe. |
| */ |
| |
| typedef |
| struct { |
| Bool inUse; |
| MPI_Request key; |
| void* buf; |
| int count; |
| MPI_Datatype datatype; |
| } |
| ShadowRequest; |
| |
| static ShadowRequest* sReqs = NULL; |
| static int sReqs_size = 0; |
| static int sReqs_used = 0; |
| static pthread_mutex_t sReqs_lock = PTHREAD_MUTEX_INITIALIZER; |
| |
| #define LOCK_SREQS \ |
| do { int pr = pthread_mutex_lock(&sReqs_lock); \ |
| assert(pr == 0); \ |
| } while (0) |
| |
| #define UNLOCK_SREQS \ |
| do { int pr = pthread_mutex_unlock(&sReqs_lock); \ |
| assert(pr == 0); \ |
| } while (0) |
| |
| |
| /* Ensure the sReqs expandable array has at least one free slot, by |
| copying it into a larger one if necessary. NOTE: sReqs_lock is |
| held throughout this procedure.*/ |
| static void ensure_sReq_space ( void ) |
| { |
| int i; |
| ShadowRequest* sReqs2; |
| if (sReqs_used == sReqs_size) { |
| sReqs_size = sReqs_size==0 ? 2 : 2*sReqs_size; |
| sReqs2 = malloc( sReqs_size * sizeof(ShadowRequest) ); |
| if (sReqs2 == NULL) { |
| UNLOCK_SREQS; |
| barf("add_shadow_Request: malloc failed.\n"); |
| } |
| for (i = 0; i < sReqs_used; i++) |
| sReqs2[i] = sReqs[i]; |
| if (sReqs) |
| free(sReqs); |
| sReqs = sReqs2; |
| } |
| assert(sReqs_used < sReqs_size); |
| } |
| |
| |
| /* Find shadow info for 'request', or NULL if none. */ |
| |
| static |
| ShadowRequest* find_shadow_Request ( MPI_Request request ) |
| { |
| ShadowRequest* ret = NULL; |
| int i; |
| LOCK_SREQS; |
| for (i = 0; i < sReqs_used; i++) { |
| if (sReqs[i].inUse && eq_MPI_Request(sReqs[i].key,request)) { |
| ret = &sReqs[i]; |
| break; |
| } |
| } |
| UNLOCK_SREQS; |
| return ret; |
| } |
| |
| |
| /* Delete shadow info for 'request', if any. */ |
| |
| static void delete_shadow_Request ( MPI_Request request ) |
| { |
| int i; |
| LOCK_SREQS; |
| for (i = 0; i < sReqs_used; i++) { |
| if (sReqs[i].inUse && eq_MPI_Request(sReqs[i].key,request)) { |
| sReqs[i].inUse = False; |
| break; |
| } |
| } |
| UNLOCK_SREQS; |
| } |
| |
| |
| /* Add a shadow for 'request', overwriting any old binding for it. */ |
| |
| static |
| void add_shadow_Request( MPI_Request request, |
| void* buf, int count, |
| MPI_Datatype datatype ) |
| { |
| int i, ix = -1; |
| LOCK_SREQS; |
| assert(sReqs_used >= 0); |
| assert(sReqs_size >= 0); |
| assert(sReqs_used <= sReqs_size); |
| if (sReqs == NULL) assert(sReqs_size == 0); |
| |
| /* First of all see if we already have a binding for this key; if |
| so just replace it, and have done. */ |
| for (i = 0; i < sReqs_used; i++) { |
| if (sReqs[i].inUse && eq_MPI_Request(sReqs[i].key,request)) { |
| ix = i; |
| break; |
| } |
| } |
| |
| if (ix < 0) { |
| /* Ok, we don't have it, so will have to add it. First search |
| to see if there is an existing empty slot. */ |
| for (i = 0; i < sReqs_used; i++) { |
| if (!sReqs[i].inUse) { |
| ix = i; |
| break; |
| } |
| } |
| } |
| |
| /* No empty slots. Allocate a new one. */ |
| if (ix < 0) { |
| ensure_sReq_space(); |
| assert(sReqs_used < sReqs_size); |
| ix = sReqs_used; |
| sReqs_used++; |
| } |
| |
| assert(ix >= 0 && ix < sReqs_used); |
| assert(sReqs_used <= sReqs_size); |
| |
| sReqs[ix].inUse = True; |
| sReqs[ix].key = request; |
| sReqs[ix].buf = buf; |
| sReqs[ix].count = count; |
| sReqs[ix].datatype = datatype; |
| |
| UNLOCK_SREQS; |
| if (opt_verbosity > 1) |
| fprintf(stderr, "%s %5d: sReq+ 0x%lx -> b/c/d %p/%d/0x%lx [slot %d]\n", |
| preamble, my_pid, (unsigned long)request, |
| buf, count, (long)datatype, ix); |
| } |
| |
| static |
| MPI_Request* clone_Request_array ( int count, MPI_Request* orig ) |
| { |
| MPI_Request* copy; |
| int i; |
| LOCK_SREQS; |
| if (count < 0) |
| count = 0; /* Hmm. Call Mulder and Scully. */ |
| copy = malloc( count * sizeof(MPI_Request) ); |
| if (copy == NULL && count > 0) { |
| UNLOCK_SREQS; |
| barf("clone_Request_array: malloc failed"); |
| } |
| for (i = 0; i < count; i++) |
| copy[i] = orig[i]; |
| UNLOCK_SREQS; |
| return copy; |
| } |
| |
| #undef LOCK_SREQS |
| #undef UNLOCK_SREQS |
| |
| |
| static void maybe_complete ( Bool error_in_status, |
| MPI_Request request_before, |
| MPI_Request request_after, |
| MPI_Status* status ) |
| { |
| int recv_count = 0; |
| ShadowRequest* shadow; |
| /* How do we know if this is an Irecv request that has now |
| finished successfully? |
| |
| request_before isn't MPI_REQUEST_NULL |
| and request_before is found in the shadow table |
| and request_after *is* MPI_REQUEST_NULL |
| and (if error_in_status then status.MPI_ERROR is MPI_SUCCESS) |
| |
| (when error_in_status == False, then we expect not to get |
| called at all if there was an error.) |
| */ |
| if (request_before != MPI_REQUEST_NULL |
| && request_after == MPI_REQUEST_NULL |
| && (error_in_status ? status->MPI_ERROR == MPI_SUCCESS : True) |
| && ( (shadow=find_shadow_Request(request_before)) != NULL) ) { |
| /* The Irecv detailed in 'shadow' completed. Paint the result |
| buffer, and delete the entry. */ |
| if (count_from_Status(&recv_count, shadow->datatype, status)) { |
| make_mem_defined_if_addressable(shadow->buf, recv_count, shadow->datatype); |
| if (opt_verbosity > 1) |
| fprintf(stderr, "%s %5d: sReq- %p (completed)\n", |
| preamble, my_pid, request_before); |
| } |
| delete_shadow_Request(request_before); |
| } |
| } |
| |
| |
| /* --- Isend --- */ |
| /* rd: (buf,count,datatype) */ |
| /* wr: *request */ |
| static __inline__ |
| int generic_Isend(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm, |
| MPI_Request* request) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("{,B,S,R}Isend"); |
| check_mem_is_defined(buf, count, datatype); |
| check_mem_is_addressable_untyped(request, sizeof(*request)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, buf,count,datatype,dest,tag,comm,request); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, request, sizeof(*request)); |
| after("{,B,S,R}Isend", err); |
| return err; |
| } |
| int WRAPPER_FOR(PMPI_Isend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm, |
| MPI_Request* request) { |
| return generic_Isend(buf,count,datatype, dest,tag,comm, request); |
| } |
| int WRAPPER_FOR(PMPI_Ibsend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm, |
| MPI_Request* request) { |
| return generic_Isend(buf,count,datatype, dest,tag,comm, request); |
| } |
| int WRAPPER_FOR(PMPI_Issend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm, |
| MPI_Request* request) { |
| return generic_Isend(buf,count,datatype, dest,tag,comm, request); |
| } |
| int WRAPPER_FOR(PMPI_Irsend)(void *buf, int count, MPI_Datatype datatype, |
| int dest, int tag, MPI_Comm comm, |
| MPI_Request* request) { |
| return generic_Isend(buf,count,datatype, dest,tag,comm, request); |
| } |
| |
| |
| /* --- Irecv --- */ |
| /* pre: must be writable: (buf,count,datatype), *request |
| post: make readable *request |
| add a request->(buf,count,ty) binding to the |
| shadow request table. |
| */ |
| int WRAPPER_FOR(PMPI_Irecv)( void* buf, int count, MPI_Datatype datatype, |
| int source, int tag, MPI_Comm comm, |
| MPI_Request* request ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Irecv"); |
| check_mem_is_addressable(buf, count, datatype); |
| check_mem_is_addressable_untyped(request, sizeof(*request)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, buf,count,datatype,source,tag,comm,request); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS) { |
| make_mem_defined_if_addressable_untyped(request, sizeof(*request)); |
| add_shadow_Request( *request, buf,count,datatype ); |
| } |
| after("Irecv", err); |
| return err; |
| } |
| |
| /* --- Wait --- */ |
| /* The MPI1 spec (imprecisely) defines 3 request states: |
| - "null" if the request is MPI_REQUEST_NULL |
| - "inactive" if not "null" and not associated with ongoing comms |
| - "active" if not "null" and is associated with ongoing comms |
| */ |
| int WRAPPER_FOR(PMPI_Wait)( MPI_Request* request, |
| MPI_Status* status ) |
| { |
| MPI_Request request_before; |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Wait"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_addressable_untyped(status, sizeof(MPI_Status)); |
| check_mem_is_defined_untyped(request, sizeof(MPI_Request)); |
| request_before = *request; |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WW(err, fn, request,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS) { |
| maybe_complete(False/*err in status?*/, |
| request_before, *request, status); |
| make_mem_defined_if_addressable_untyped(status, sizeof(MPI_Status)); |
| } |
| after("Wait", err); |
| return err; |
| } |
| |
| /* --- Waitany --- */ |
| int WRAPPER_FOR(PMPI_Waitany)( int count, |
| MPI_Request* requests, |
| int* index, |
| MPI_Status* status ) |
| { |
| MPI_Request* requests_before = NULL; |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err, i; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Waitany"); |
| if (isMSI(status)) |
| status = &fake_status; |
| if (0) fprintf(stderr, "Waitany: %d\n", count); |
| check_mem_is_addressable_untyped(index, sizeof(int)); |
| check_mem_is_addressable_untyped(status, sizeof(MPI_Status)); |
| for (i = 0; i < count; i++) { |
| check_mem_is_defined_untyped(&requests[i], sizeof(MPI_Request)); |
| } |
| requests_before = clone_Request_array( count, requests ); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWWW(err, fn, count,requests,index,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS && *index >= 0 && *index < count) { |
| maybe_complete(False/*err in status?*/, |
| requests_before[*index], requests[*index], status); |
| make_mem_defined_if_addressable_untyped(status, sizeof(MPI_Status)); |
| } |
| if (requests_before) |
| free(requests_before); |
| after("Waitany", err); |
| return err; |
| } |
| |
| /* --- Waitall --- */ |
| int WRAPPER_FOR(PMPI_Waitall)( int count, |
| MPI_Request* requests, |
| MPI_Status* statuses ) |
| { |
| MPI_Request* requests_before = NULL; |
| OrigFn fn; |
| int err, i; |
| Bool free_sta = False; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Waitall"); |
| if (0) fprintf(stderr, "Waitall: %d\n", count); |
| if (isMSI(statuses)) { |
| free_sta = True; |
| statuses = malloc( (count < 0 ? 0 : count) * sizeof(MPI_Status) ); |
| } |
| for (i = 0; i < count; i++) { |
| check_mem_is_addressable_untyped(&statuses[i], sizeof(MPI_Status)); |
| check_mem_is_defined_untyped(&requests[i], sizeof(MPI_Request)); |
| } |
| requests_before = clone_Request_array( count, requests ); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, count,requests,statuses); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS /*complete success*/ |
| || err == MPI_ERR_IN_STATUS /* partial success */) { |
| Bool e_i_s = err == MPI_ERR_IN_STATUS; |
| for (i = 0; i < count; i++) { |
| maybe_complete(e_i_s, requests_before[i], requests[i], |
| &statuses[i]); |
| make_mem_defined_if_addressable_untyped(&statuses[i], |
| sizeof(MPI_Status)); |
| } |
| } |
| if (requests_before) |
| free(requests_before); |
| if (free_sta) |
| free(statuses); |
| after("Waitall", err); |
| return err; |
| } |
| |
| /* --- Test --- */ |
| /* nonblocking version of Wait */ |
| int WRAPPER_FOR(PMPI_Test)( MPI_Request* request, int* flag, |
| MPI_Status* status ) |
| { |
| MPI_Request request_before; |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Test"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_addressable_untyped(status, sizeof(MPI_Status)); |
| check_mem_is_addressable_untyped(flag, sizeof(int)); |
| check_mem_is_defined_untyped(request, sizeof(MPI_Request)); |
| request_before = *request; |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, request,flag,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS && *flag) { |
| maybe_complete(False/*err in status?*/, |
| request_before, *request, status); |
| make_mem_defined_if_addressable_untyped(status, sizeof(MPI_Status)); |
| } |
| after("Test", err); |
| return err; |
| } |
| |
| /* --- Testall --- */ |
| /* nonblocking version of Waitall */ |
| int WRAPPER_FOR(PMPI_Testall)( int count, MPI_Request* requests, |
| int* flag, MPI_Status* statuses ) |
| { |
| MPI_Request* requests_before = NULL; |
| OrigFn fn; |
| int err, i; |
| Bool free_sta = False; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Testall"); |
| if (0) fprintf(stderr, "Testall: %d\n", count); |
| if (isMSI(statuses)) { |
| free_sta = True; |
| statuses = malloc( (count < 0 ? 0 : count) * sizeof(MPI_Status) ); |
| } |
| check_mem_is_addressable_untyped(flag, sizeof(int)); |
| for (i = 0; i < count; i++) { |
| check_mem_is_addressable_untyped(&statuses[i], sizeof(MPI_Status)); |
| check_mem_is_defined_untyped(&requests[i], sizeof(MPI_Request)); |
| } |
| requests_before = clone_Request_array( count, requests ); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWWW(err, fn, count,requests,flag,statuses); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| /* Urk. Is the following "if (...)" really right? I don't know. */ |
| if (*flag |
| && (err == MPI_SUCCESS /*complete success*/ |
| || err == MPI_ERR_IN_STATUS /* partial success */)) { |
| Bool e_i_s = err == MPI_ERR_IN_STATUS; |
| for (i = 0; i < count; i++) { |
| maybe_complete(e_i_s, requests_before[i], requests[i], |
| &statuses[i]); |
| make_mem_defined_if_addressable_untyped(&statuses[i], |
| sizeof(MPI_Status)); |
| } |
| } |
| if (requests_before) |
| free(requests_before); |
| if (free_sta) |
| free(statuses); |
| after("Testall", err); |
| return err; |
| } |
| |
| /* --- Iprobe --- */ |
| /* pre: must-be-writable: *flag, *status */ |
| /* post: make-readable *flag |
| if *flag==True make-defined *status */ |
| int WRAPPER_FOR(PMPI_Iprobe)(int source, int tag, |
| MPI_Comm comm, |
| int* flag, MPI_Status* status) |
| { |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Iprobe"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_addressable_untyped(flag, sizeof(*flag)); |
| check_mem_is_addressable_untyped(status, sizeof(*status)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_5W(err, fn, source,tag,comm,flag,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS) { |
| make_mem_defined_if_addressable_untyped(flag, sizeof(*flag)); |
| if (*flag) |
| make_mem_defined_if_addressable_untyped(status, sizeof(*status)); |
| } |
| after("Iprobe", err); |
| return err; |
| } |
| |
| /* --- Probe --- */ |
| /* pre: must-be-writable *status */ |
| /* post: make-defined *status */ |
| int WRAPPER_FOR(PMPI_Probe)(int source, int tag, |
| MPI_Comm comm, MPI_Status* status) |
| { |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Probe"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_addressable_untyped(status, sizeof(*status)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWWW(err, fn, source,tag,comm,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, status, sizeof(*status)); |
| after("Probe", err); |
| return err; |
| } |
| |
| /* --- Cancel --- */ |
| /* Wrapping PMPI_Cancel is interesting only to the extent that we need |
| to be able to detect when a request should be removed from our |
| shadow table due to cancellation. */ |
| int WRAPPER_FOR(PMPI_Cancel)(MPI_Request* request) |
| { |
| OrigFn fn; |
| int err; |
| MPI_Request tmp; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Cancel"); |
| check_mem_is_addressable_untyped(request, sizeof(*request)); |
| tmp = *request; |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_W(err, fn, request); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (err == MPI_SUCCESS) |
| delete_shadow_Request(tmp); |
| after("Cancel", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 3.10, Send-receive ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Sendrecv --- */ |
| /* pre: must be readable: (sendbuf,sendcount,sendtype) |
| must be writable: (recvbuf,recvcount,recvtype) |
| post: make readable: (recvbuf,recvcount_actual,datatype) |
| where recvcount_actual is determined from *status |
| */ |
| int WRAPPER_FOR(PMPI_Sendrecv)( |
| void *sendbuf, int sendcount, MPI_Datatype sendtype, |
| int dest, int sendtag, |
| void *recvbuf, int recvcount, MPI_Datatype recvtype, |
| int source, int recvtag, |
| MPI_Comm comm, MPI_Status *status) |
| { |
| MPI_Status fake_status; |
| OrigFn fn; |
| int err, recvcount_actual = 0; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Sendrecv"); |
| if (isMSI(status)) |
| status = &fake_status; |
| check_mem_is_defined(sendbuf, sendcount, sendtype); |
| check_mem_is_addressable(recvbuf, recvcount, recvtype); |
| check_mem_is_addressable_untyped(status, sizeof(*status)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_12W(err, fn, sendbuf,sendcount,sendtype,dest,sendtag, |
| recvbuf,recvcount,recvtype,source,recvtag, |
| comm,status); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, status, sizeof(*status)); |
| if (err == MPI_SUCCESS |
| && count_from_Status(&recvcount_actual,recvtype,status)) { |
| make_mem_defined_if_addressable(recvbuf, recvcount_actual, recvtype); |
| } |
| after("Sendrecv", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 3.12, Derived datatypes ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Address --- */ |
| /* Does this have anything worth checking? */ |
| HAS_NO_WRAPPER(Address) |
| |
| /* --- MPI 2 stuff --- */ |
| /* Type_extent, Type_get_contents and Type_get_envelope sometimes get |
| used intensively by the type walker (walk_type). There's no reason |
| why they couldn't be properly wrapped if needed, but doing so slows |
| everything down, so don't bother until needed. */ |
| HAS_NO_WRAPPER(Type_extent) |
| HAS_NO_WRAPPER(Type_get_contents) |
| HAS_NO_WRAPPER(Type_get_envelope) |
| |
| /* --- Type_commit --- */ |
| int WRAPPER_FOR(PMPI_Type_commit)( MPI_Datatype* ty ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Type_commit"); |
| check_mem_is_defined_untyped(ty, sizeof(*ty)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_W(err, fn, ty); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Type_commit", err); |
| return err; |
| } |
| |
| /* --- Type_free --- */ |
| int WRAPPER_FOR(PMPI_Type_free)( MPI_Datatype* ty ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Type_free"); |
| check_mem_is_defined_untyped(ty, sizeof(*ty)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_W(err, fn, ty); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Type_free", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 3.13, Pack and unpack ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Pack --- */ |
| /* pre: must be readable: position |
| must be readable: (inbuf,incount,datatype) |
| must be writable: outbuf[0 .. outsize-1] |
| must be writable: outbuf[*position .. |
| *position - 1 |
| + however much space PMPI_Pack_size |
| says we will need] |
| post: make readable: outbuf[old *position .. new *position] |
| */ |
| int WRAPPER_FOR(PMPI_Pack)( void* inbuf, int incount, MPI_Datatype datatype, |
| void* outbuf, int outsize, |
| int* position, MPI_Comm comm ) |
| { |
| OrigFn fn; |
| int err, szB = 0; |
| int position_ORIG = *position; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Pack"); |
| /* stay sane */ |
| check_mem_is_defined_untyped(position, sizeof(*position)); |
| /* check input */ |
| check_mem_is_defined(inbuf, incount, datatype); |
| /* check output area's stated bounds make sense */ |
| check_mem_is_addressable_untyped(outbuf, outsize); |
| /* check output area's actual used size properly */ |
| err = PMPI_Pack_size( incount, datatype, comm, &szB ); |
| if (err == MPI_SUCCESS && szB > 0) { |
| check_mem_is_addressable_untyped( |
| ((char*)outbuf) + position_ORIG, szB |
| ); |
| } |
| |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, inbuf,incount,datatype, outbuf,outsize,position, comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| |
| if (err == MPI_SUCCESS && (*position) > position_ORIG) { |
| /* paint output */ |
| make_mem_defined_if_addressable_untyped( |
| ((char*)outbuf) + position_ORIG, *position - position_ORIG |
| ); |
| } |
| after("Pack", err); |
| return err; |
| } |
| |
| /* --- Unpack --- */ |
| /* pre: must be readable: position |
| must be writable: (outbuf,outcount,datatype) |
| must be writable: outbuf[0 .. outsize-1] |
| must be writable: outbuf[*position .. |
| *position - 1 |
| + however much space PMPI_Pack_size |
| says we will need] |
| post: make readable: (outbuf,outcount,datatype) |
| and also do a readability check of |
| inbuf[old *position .. new *position] |
| */ |
| int WRAPPER_FOR(PMPI_Unpack)( void* inbuf, int insize, int* position, |
| void* outbuf, int outcount, MPI_Datatype datatype, |
| MPI_Comm comm ) |
| { |
| OrigFn fn; |
| int err, szB = 0; |
| int position_ORIG = *position; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Unpack"); |
| /* stay sane */ |
| check_mem_is_defined_untyped(position, sizeof(*position)); |
| /* check output area is accessible */ |
| check_mem_is_addressable(outbuf, outcount, datatype); |
| /* check input area's stated bounds make sense */ |
| check_mem_is_addressable_untyped(inbuf, insize); |
| /* check input area's actual used size properly */ |
| err = PMPI_Pack_size( outcount, datatype, comm, &szB ); |
| if (err == MPI_SUCCESS && szB > 0) { |
| check_mem_is_addressable_untyped( |
| ((char*)inbuf) + position_ORIG, szB |
| ); |
| } |
| |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, inbuf,insize,position, outbuf,outcount,datatype, comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| |
| if (err == MPI_SUCCESS && (*position) > position_ORIG) { |
| /* recheck input more carefully */ |
| check_mem_is_defined_untyped( |
| ((char*)inbuf) + position_ORIG, *position - position_ORIG |
| ); |
| /* paint output */ |
| make_mem_defined_if_addressable( outbuf, outcount, datatype ); |
| } |
| after("Unpack", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 4.4, Broadcast ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Bcast --- */ |
| /* pre: must-be-readable (buffer,count,datatype) for rank==root |
| must-be-writable (buffer,count,datatype) for rank!=root |
| post: make-readable (buffer,count,datatype) for all |
| |
| Resulting behaviour is: if root sends uninitialised stuff, then |
| V complains, but then all ranks, including itself, see the buffer |
| as initialised after that. |
| */ |
| int WRAPPER_FOR(PMPI_Bcast)(void *buffer, int count, |
| MPI_Datatype datatype, |
| int root, MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err; |
| Bool i_am_sender; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Bcast"); |
| i_am_sender = root == comm_rank(comm); |
| if (i_am_sender) { |
| check_mem_is_defined(buffer, count, datatype); |
| } else { |
| check_mem_is_addressable(buffer, count, datatype); |
| } |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_5W(err, fn, buffer,count,datatype,root,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success(err, buffer, count, datatype); |
| after("Bcast", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 4.5, Gather ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Gather --- */ |
| /* JRS 20060217: I don't really understand this. Each process is |
| going to send sendcount items of type sendtype to the root. So |
| the root is going to receive comm_size*sendcount items of type |
| sendtype (right?) So why specify recvcount and recvtype? |
| |
| Anyway, assuming the MPI Spec is correct (seems likely :-) we have: |
| |
| pre: (all) must be readable: (sendbuf,sendcount,sendtype) |
| (root only): must be writable: (recvbuf,recvcount * comm_size,recvtype) |
| post: (root only): make readable: (recvbuf,recvcount * comm_size,recvtype) |
| */ |
| int WRAPPER_FOR(PMPI_Gather)( |
| void *sendbuf, int sendcount, MPI_Datatype sendtype, |
| void *recvbuf, int recvcount, MPI_Datatype recvtype, |
| int root, MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err, me, sz; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Gather"); |
| me = comm_rank(comm); |
| sz = comm_size(comm); |
| check_mem_is_defined(sendbuf, sendcount, sendtype); |
| if (me == root) |
| check_mem_is_addressable(recvbuf, recvcount * sz, recvtype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_8W(err, fn, sendbuf,sendcount,sendtype, |
| recvbuf,recvcount,recvtype, |
| root,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (me == root) |
| make_mem_defined_if_addressable_if_success(err, recvbuf, recvcount * sz, recvtype); |
| after("Gather", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 4.6, Scatter ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* pre: (root only): must be readable: (sendbuf,sendcount * comm_size,sendtype) |
| (all): must be writable: (recvbuf,recvbuf,recvtype) |
| post: (all): make defined: (recvbuf,recvbuf,recvtype) |
| */ |
| int WRAPPER_FOR(PMPI_Scatter)( |
| void* sendbuf, int sendcount, MPI_Datatype sendtype, |
| void* recvbuf, int recvcount, MPI_Datatype recvtype, |
| int root, MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err, me, sz; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Scatter"); |
| me = comm_rank(comm); |
| sz = comm_size(comm); |
| check_mem_is_addressable(recvbuf, recvcount, recvtype); |
| if (me == root) |
| check_mem_is_defined(sendbuf, sendcount * sz, sendtype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_8W(err, fn, sendbuf,sendcount,sendtype, |
| recvbuf,recvcount,recvtype, |
| root,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success(err, recvbuf, recvcount, recvtype); |
| after("Scatter", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 4.8, All-to-All Scatter/Gather ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* pre: (all) must be readable: (sendbuf,sendcount * comm_size,sendtype) |
| (all) must be writable: (recvbuf,recvcount * comm_size,recvtype) |
| post: (all) make defined: (recvbuf,recvcount * comm_size,recvtype) |
| */ |
| int WRAPPER_FOR(PMPI_Alltoall)( |
| void* sendbuf, int sendcount, MPI_Datatype sendtype, |
| void* recvbuf, int recvcount, MPI_Datatype recvtype, |
| MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err, sz; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Alltoall"); |
| sz = comm_size(comm); |
| check_mem_is_defined(sendbuf, sendcount * sz, sendtype); |
| check_mem_is_addressable(recvbuf, recvcount * sz, recvtype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, sendbuf,sendcount,sendtype, |
| recvbuf,recvcount,recvtype, |
| comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success(err, recvbuf, recvcount * sz, recvtype); |
| after("Alltoall", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 4.9, Global Reduction Operations ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Reduce --- */ |
| /* rd: (sendbuf,count,datatype) for all |
| wr: (recvbuf,count,datatype) but only for rank == root |
| */ |
| int WRAPPER_FOR(PMPI_Reduce)(void *sendbuf, void *recvbuf, |
| int count, |
| MPI_Datatype datatype, MPI_Op op, |
| int root, MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err; |
| Bool i_am_root; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Reduce"); |
| i_am_root = root == comm_rank(comm); |
| check_mem_is_defined(sendbuf, count, datatype); |
| if (i_am_root) |
| check_mem_is_addressable(recvbuf, count, datatype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_7W(err, fn, sendbuf,recvbuf,count,datatype,op,root,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| if (i_am_root) |
| make_mem_defined_if_addressable_if_success(err, recvbuf, count, datatype); |
| after("Reduce", err); |
| return err; |
| } |
| |
| |
| /* --- Allreduce --- */ |
| /* rd: (sendbuf,count,datatype) for all |
| wr: (recvbuf,count,datatype) for all |
| */ |
| int WRAPPER_FOR(PMPI_Allreduce)(void *sendbuf, void *recvbuf, |
| int count, |
| MPI_Datatype datatype, MPI_Op op, |
| MPI_Comm comm) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Allreduce"); |
| check_mem_is_defined(sendbuf, count, datatype); |
| check_mem_is_addressable(recvbuf, count, datatype); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_6W(err, fn, sendbuf,recvbuf,count,datatype,op,comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success(err, recvbuf, count, datatype); |
| after("Allreduce", err); |
| return err; |
| } |
| |
| |
| /* --- Op_create --- */ |
| /* This is a bit dubious. I suppose it takes 'function' and |
| writes something at *op, but who knows what an MPI_Op is? |
| Can we safely do 'sizeof' on it? */ |
| int WRAPPER_FOR(PMPI_Op_create)( MPI_User_function* function, |
| int commute, |
| MPI_Op* op ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Op_create"); |
| check_mem_is_addressable_untyped(op, sizeof(*op)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, function,commute,op); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, op, sizeof(*op)); |
| after("Op_create", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 5.4, Communicator management ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Hardly seems worth wrapping Comm_rank and Comm_size, but |
| since it's done now .. */ |
| |
| /* --- Comm_create --- */ |
| /* Let normal memcheck tracking handle this. */ |
| int WRAPPER_FOR(PMPI_Comm_create)(MPI_Comm comm, MPI_Group group, |
| MPI_Comm* newcomm) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Comm_create"); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, comm,group,newcomm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Comm_create", err); |
| return err; |
| } |
| |
| /* --- Comm_dup --- */ |
| /* Let normal memcheck tracking handle this. */ |
| int WRAPPER_FOR(PMPI_Comm_dup)(MPI_Comm comm, MPI_Comm* newcomm) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Comm_dup"); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WW(err, fn, comm,newcomm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Comm_dup", err); |
| return err; |
| } |
| |
| /* --- Comm_free --- */ |
| /* Let normal memcheck tracking handle this. */ |
| int WRAPPER_FOR(PMPI_Comm_free)(MPI_Comm* comm) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Comm_free"); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_W(err, fn, comm); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Comm_free", err); |
| return err; |
| } |
| |
| /* --- Comm_rank --- */ |
| /* wr: (rank, sizeof(*rank)) */ |
| int WRAPPER_FOR(PMPI_Comm_rank)(MPI_Comm comm, int *rank) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Comm_rank"); |
| check_mem_is_addressable_untyped(rank, sizeof(*rank)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WW(err, fn, comm,rank); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, rank, sizeof(*rank)); |
| after("Comm_rank", err); |
| return err; |
| } |
| |
| /* --- Comm_size --- */ |
| /* wr: (size, sizeof(*size)) */ |
| int WRAPPER_FOR(PMPI_Comm_size)(MPI_Comm comm, int *size) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Comm_size"); |
| check_mem_is_addressable_untyped(size, sizeof(*size)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WW(err, fn, comm,size); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, size, sizeof(*size)); |
| after("Comm_size", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 5.7, Caching ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 7.3, Error codes and classes ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Error_string --- */ |
| int WRAPPER_FOR(PMPI_Error_string)( int errorcode, char* string, |
| int* resultlen ) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Error_string"); |
| check_mem_is_addressable_untyped(resultlen, sizeof(int)); |
| check_mem_is_addressable_untyped(string, MPI_MAX_ERROR_STRING); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WWW(err, fn, errorcode,string,resultlen); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| /* Don't bother to paint the result; we assume the real function |
| will have filled it with defined characters :-) */ |
| after("Error_string", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Sec 7.5, Startup ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* --- Init --- */ |
| /* rd: *argc, *argv[0 .. *argc-1] */ |
| long WRAPPER_FOR(PMPI_Init)(int *argc, char ***argv) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Init"); |
| if (argc) { |
| check_mem_is_defined_untyped(argc, sizeof(int)); |
| } |
| if (argc && argv) { |
| check_mem_is_defined_untyped(*argv, *argc * sizeof(char**)); |
| } |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_WW(err, fn, argc,argv); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Init", err); |
| if (opt_initkludge) |
| return (long)(void*)&mpiwrap_walk_type_EXTERNALLY_VISIBLE; |
| else |
| return (long)err; |
| } |
| |
| /* --- Initialized --- */ |
| int WRAPPER_FOR(PMPI_Initialized)(int* flag) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Initialized"); |
| check_mem_is_addressable_untyped(flag, sizeof(int)); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_W(err, fn, flag); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| make_mem_defined_if_addressable_if_success_untyped(err, flag, sizeof(int)); |
| after("Initialized", err); |
| return err; |
| } |
| |
| /* --- Finalize --- */ |
| int WRAPPER_FOR(PMPI_Finalize)(void) |
| { |
| OrigFn fn; |
| int err; |
| VALGRIND_GET_ORIG_FN(fn); |
| before("Finalize"); |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; |
| CALL_FN_W_v(err, fn); |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; |
| after("Finalize", err); |
| return err; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- Default wrappers for all remaining functions ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Boilerplate for default wrappers. */ |
| #define DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| OrigFn fn; \ |
| UWord res; \ |
| static int complaints = 1; \ |
| VALGRIND_GET_ORIG_FN(fn); \ |
| before(#basename); \ |
| if (opt_missing >= 2) { \ |
| barf("no wrapper for PMPI_" #basename \ |
| ",\n\t\t\t and you have " \ |
| "requested strict checking"); \ |
| } \ |
| if (opt_missing == 1 && complaints > 0) { \ |
| fprintf(stderr, "%s %5d: warning: no wrapper " \ |
| "for PMPI_" #basename "\n", \ |
| preamble, my_pid); \ |
| complaints--; \ |
| } \ |
| |
| #define DEFAULT_WRAPPER_W_0W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename)( void ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_v(res, fn); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_1W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename)( UWord a1 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_W(res, fn, a1); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_2W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename)( UWord a1, UWord a2 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_WW(res, fn, a1,a2); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_3W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_WWW(res, fn, a1,a2,a3); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_4W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_WWWW(res, fn, a1,a2,a3,a4); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_5W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_5W(res, fn, a1,a2,a3,a4,a5); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_6W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_6W(res, fn, a1,a2,a3,a4,a5,a6); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_7W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6, UWord a7 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_7W(res, fn, a1,a2,a3,a4,a5,a6,a7); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_8W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6, UWord a7, UWord a8 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_8W(res, fn, a1,a2,a3,a4,a5,a6,a7,a8); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_9W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6, UWord a7, UWord a8, UWord a9 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_9W(res, fn, a1,a2,a3,a4,a5,a6,a7,a8,a9); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_10W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6, UWord a7, UWord a8, UWord a9, UWord a10 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_10W(res, fn, a1,a2,a3,a4,a5,a6,a7,a8,a9,a10); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| #define DEFAULT_WRAPPER_W_12W(basename) \ |
| UWord WRAPPER_FOR(PMPI_##basename) \ |
| ( UWord a1, UWord a2, UWord a3, UWord a4, UWord a5, \ |
| UWord a6, UWord a7, UWord a8, UWord a9, UWord a10, \ |
| UWord a11, UWord a12 ) \ |
| { \ |
| DEFAULT_WRAPPER_PREAMBLE(basename) \ |
| if (cONFIG_DER) VALGRIND_DISABLE_ERROR_REPORTING; \ |
| CALL_FN_W_12W(res, fn, a1,a2,a3,a4,a5,a6, \ |
| a7,a8,a9,a10,a11,a12); \ |
| if (cONFIG_DER) VALGRIND_ENABLE_ERROR_REPORTING; \ |
| return res; \ |
| } |
| |
| |
| /* Canned summary of MPI-1.1/MPI-2 entry points, as derived from mpi.h |
| from Open MPI svn rev 9191 (somewhere between Open MPI versions |
| 1.0.1 and 1.1.0). */ |
| |
| /* If a function is commented out in this list, it's because it has a |
| proper wrapper written elsewhere (above here). */ |
| |
| DEFAULT_WRAPPER_W_2W(Abort) |
| DEFAULT_WRAPPER_W_9W(Accumulate) |
| DEFAULT_WRAPPER_W_1W(Add_error_class) |
| DEFAULT_WRAPPER_W_2W(Add_error_code) |
| DEFAULT_WRAPPER_W_2W(Add_error_string) |
| /* DEFAULT_WRAPPER_W_2W(Address) */ |
| DEFAULT_WRAPPER_W_7W(Allgather) |
| DEFAULT_WRAPPER_W_8W(Allgatherv) |
| DEFAULT_WRAPPER_W_3W(Alloc_mem) |
| /* DEFAULT_WRAPPER_W_6W(Allreduce) */ |
| /* DEFAULT_WRAPPER_W_7W(Alltoall) */ |
| DEFAULT_WRAPPER_W_9W(Alltoallv) |
| DEFAULT_WRAPPER_W_9W(Alltoallw) |
| DEFAULT_WRAPPER_W_2W(Attr_delete) |
| DEFAULT_WRAPPER_W_4W(Attr_get) |
| DEFAULT_WRAPPER_W_3W(Attr_put) |
| DEFAULT_WRAPPER_W_1W(Barrier) |
| /* DEFAULT_WRAPPER_W_5W(Bcast) */ |
| /* DEFAULT_WRAPPER_W_6W(Bsend) */ |
| DEFAULT_WRAPPER_W_7W(Bsend_init) |
| DEFAULT_WRAPPER_W_2W(Buffer_attach) |
| DEFAULT_WRAPPER_W_2W(Buffer_detach) |
| /* DEFAULT_WRAPPER_W_1W(Cancel) */ |
| DEFAULT_WRAPPER_W_4W(Cart_coords) |
| DEFAULT_WRAPPER_W_6W(Cart_create) |
| DEFAULT_WRAPPER_W_5W(Cart_get) |
| DEFAULT_WRAPPER_W_5W(Cart_map) |
| DEFAULT_WRAPPER_W_3W(Cart_rank) |
| DEFAULT_WRAPPER_W_5W(Cart_shift) |
| DEFAULT_WRAPPER_W_3W(Cart_sub) |
| DEFAULT_WRAPPER_W_2W(Cartdim_get) |
| DEFAULT_WRAPPER_W_1W(Close_port) |
| DEFAULT_WRAPPER_W_5W(Comm_accept) |
| DEFAULT_WRAPPER_W_1W(Comm_c2f) |
| DEFAULT_WRAPPER_W_2W(Comm_call_errhandler) |
| DEFAULT_WRAPPER_W_3W(Comm_compare) |
| DEFAULT_WRAPPER_W_5W(Comm_connect) |
| DEFAULT_WRAPPER_W_2W(Comm_create_errhandler) |
| DEFAULT_WRAPPER_W_4W(Comm_create_keyval) |
| /* DEFAULT_WRAPPER_W_3W(Comm_create) */ |
| DEFAULT_WRAPPER_W_2W(Comm_delete_attr) |
| DEFAULT_WRAPPER_W_1W(Comm_disconnect) |
| /* DEFAULT_WRAPPER_W_2W(Comm_dup) */ |
| DEFAULT_WRAPPER_W_1W(Comm_f2c) |
| DEFAULT_WRAPPER_W_1W(Comm_free_keyval) |
| /* DEFAULT_WRAPPER_W_1W(Comm_free) */ |
| DEFAULT_WRAPPER_W_4W(Comm_get_attr) |
| DEFAULT_WRAPPER_W_2W(Comm_get_errhandler) |
| DEFAULT_WRAPPER_W_3W(Comm_get_name) |
| DEFAULT_WRAPPER_W_1W(Comm_get_parent) |
| DEFAULT_WRAPPER_W_2W(Comm_group) |
| DEFAULT_WRAPPER_W_2W(Comm_join) |
| /* DEFAULT_WRAPPER_W_2W(Comm_rank) */ |
| DEFAULT_WRAPPER_W_2W(Comm_remote_group) |
| DEFAULT_WRAPPER_W_2W(Comm_remote_size) |
| DEFAULT_WRAPPER_W_3W(Comm_set_attr) |
| DEFAULT_WRAPPER_W_2W(Comm_set_errhandler) |
| DEFAULT_WRAPPER_W_2W(Comm_set_name) |
| /* DEFAULT_WRAPPER_W_2W(Comm_size) */ |
| DEFAULT_WRAPPER_W_8W(Comm_spawn) |
| DEFAULT_WRAPPER_W_9W(Comm_spawn_multiple) |
| DEFAULT_WRAPPER_W_4W(Comm_split) |
| DEFAULT_WRAPPER_W_2W(Comm_test_inter) |
| DEFAULT_WRAPPER_W_3W(Dims_create) |
| DEFAULT_WRAPPER_W_1W(Errhandler_c2f) |
| DEFAULT_WRAPPER_W_2W(Errhandler_create) |
| DEFAULT_WRAPPER_W_1W(Errhandler_f2c) |
| DEFAULT_WRAPPER_W_1W(Errhandler_free) |
| DEFAULT_WRAPPER_W_2W(Errhandler_get) |
| DEFAULT_WRAPPER_W_2W(Errhandler_set) |
| DEFAULT_WRAPPER_W_2W(Error_class) |
| /* DEFAULT_WRAPPER_W_3W(Error_string) */ |
| DEFAULT_WRAPPER_W_6W(Exscan) |
| DEFAULT_WRAPPER_W_1W(File_c2f) |
| DEFAULT_WRAPPER_W_1W(File_f2c) |
| DEFAULT_WRAPPER_W_2W(File_call_errhandler) |
| DEFAULT_WRAPPER_W_2W(File_create_errhandler) |
| DEFAULT_WRAPPER_W_2W(File_set_errhandler) |
| DEFAULT_WRAPPER_W_2W(File_get_errhandler) |
| DEFAULT_WRAPPER_W_5W(File_open) |
| DEFAULT_WRAPPER_W_1W(File_close) |
| DEFAULT_WRAPPER_W_2W(File_delete) |
| DEFAULT_WRAPPER_W_2W(File_set_size) |
| DEFAULT_WRAPPER_W_2W(File_preallocate) |
| DEFAULT_WRAPPER_W_2W(File_get_size) |
| DEFAULT_WRAPPER_W_2W(File_get_group) |
| DEFAULT_WRAPPER_W_2W(File_get_amode) |
| DEFAULT_WRAPPER_W_2W(File_set_info) |
| DEFAULT_WRAPPER_W_2W(File_get_info) |
| DEFAULT_WRAPPER_W_6W(File_set_view) |
| DEFAULT_WRAPPER_W_5W(File_get_view) |
| DEFAULT_WRAPPER_W_6W(File_read_at) |
| DEFAULT_WRAPPER_W_6W(File_read_at_all) |
| DEFAULT_WRAPPER_W_6W(File_write_at) |
| DEFAULT_WRAPPER_W_6W(File_write_at_all) |
| DEFAULT_WRAPPER_W_6W(File_iread_at) |
| DEFAULT_WRAPPER_W_6W(File_iwrite_at) |
| DEFAULT_WRAPPER_W_5W(File_read) |
| DEFAULT_WRAPPER_W_5W(File_read_all) |
| DEFAULT_WRAPPER_W_5W(File_write) |
| DEFAULT_WRAPPER_W_5W(File_write_all) |
| DEFAULT_WRAPPER_W_5W(File_iread) |
| DEFAULT_WRAPPER_W_5W(File_iwrite) |
| DEFAULT_WRAPPER_W_3W(File_seek) |
| DEFAULT_WRAPPER_W_2W(File_get_position) |
| DEFAULT_WRAPPER_W_3W(File_get_byte_offset) |
| DEFAULT_WRAPPER_W_5W(File_read_shared) |
| DEFAULT_WRAPPER_W_5W(File_write_shared) |
| DEFAULT_WRAPPER_W_5W(File_iread_shared) |
| DEFAULT_WRAPPER_W_5W(File_iwrite_shared) |
| DEFAULT_WRAPPER_W_5W(File_read_ordered) |
| DEFAULT_WRAPPER_W_5W(File_write_ordered) |
| DEFAULT_WRAPPER_W_3W(File_seek_shared) |
| DEFAULT_WRAPPER_W_2W(File_get_position_shared) |
| DEFAULT_WRAPPER_W_5W(File_read_at_all_begin) |
| DEFAULT_WRAPPER_W_3W(File_read_at_all_end) |
| DEFAULT_WRAPPER_W_5W(File_write_at_all_begin) |
| DEFAULT_WRAPPER_W_3W(File_write_at_all_end) |
| DEFAULT_WRAPPER_W_4W(File_read_all_begin) |
| DEFAULT_WRAPPER_W_3W(File_read_all_end) |
| DEFAULT_WRAPPER_W_4W(File_write_all_begin) |
| DEFAULT_WRAPPER_W_3W(File_write_all_end) |
| DEFAULT_WRAPPER_W_4W(File_read_ordered_begin) |
| DEFAULT_WRAPPER_W_3W(File_read_ordered_end) |
| DEFAULT_WRAPPER_W_4W(File_write_ordered_begin) |
| DEFAULT_WRAPPER_W_3W(File_write_ordered_end) |
| DEFAULT_WRAPPER_W_3W(File_get_type_extent) |
| DEFAULT_WRAPPER_W_2W(File_set_atomicity) |
| DEFAULT_WRAPPER_W_2W(File_get_atomicity) |
| DEFAULT_WRAPPER_W_1W(File_sync) |
| /* DEFAULT_WRAPPER_W_0W(Finalize) */ |
| DEFAULT_WRAPPER_W_1W(Finalized) |
| DEFAULT_WRAPPER_W_1W(Free_mem) |
| /* DEFAULT_WRAPPER_W_8W(Gather) */ |
| DEFAULT_WRAPPER_W_9W(Gatherv) |
| DEFAULT_WRAPPER_W_2W(Get_address) |
| /* DEFAULT_WRAPPER_W_3W(Get_count) */ |
| DEFAULT_WRAPPER_W_3W(Get_elements) |
| DEFAULT_WRAPPER_W_8W(Get) |
| DEFAULT_WRAPPER_W_2W(Get_processor_name) |
| DEFAULT_WRAPPER_W_2W(Get_version) |
| DEFAULT_WRAPPER_W_6W(Graph_create) |
| DEFAULT_WRAPPER_W_5W(Graph_get) |
| DEFAULT_WRAPPER_W_5W(Graph_map) |
| DEFAULT_WRAPPER_W_3W(Graph_neighbors_count) |
| DEFAULT_WRAPPER_W_4W(Graph_neighbors) |
| DEFAULT_WRAPPER_W_3W(Graphdims_get) |
| DEFAULT_WRAPPER_W_1W(Grequest_complete) |
| DEFAULT_WRAPPER_W_5W(Grequest_start) |
| DEFAULT_WRAPPER_W_1W(Group_c2f) |
| DEFAULT_WRAPPER_W_3W(Group_compare) |
| DEFAULT_WRAPPER_W_3W(Group_difference) |
| DEFAULT_WRAPPER_W_4W(Group_excl) |
| DEFAULT_WRAPPER_W_1W(Group_f2c) |
| DEFAULT_WRAPPER_W_1W(Group_free) |
| DEFAULT_WRAPPER_W_4W(Group_incl) |
| DEFAULT_WRAPPER_W_3W(Group_intersection) |
| DEFAULT_WRAPPER_W_4W(Group_range_excl) |
| DEFAULT_WRAPPER_W_4W(Group_range_incl) |
| DEFAULT_WRAPPER_W_2W(Group_rank) |
| DEFAULT_WRAPPER_W_2W(Group_size) |
| DEFAULT_WRAPPER_W_5W(Group_translate_ranks) |
| DEFAULT_WRAPPER_W_3W(Group_union) |
| /* DEFAULT_WRAPPER_W_7W(Ibsend) */ |
| DEFAULT_WRAPPER_W_1W(Info_c2f) |
| DEFAULT_WRAPPER_W_1W(Info_create) |
| DEFAULT_WRAPPER_W_2W(Info_delete) |
| DEFAULT_WRAPPER_W_2W(Info_dup) |
| DEFAULT_WRAPPER_W_1W(Info_f2c) |
| DEFAULT_WRAPPER_W_1W(Info_free) |
| DEFAULT_WRAPPER_W_5W(Info_get) |
| DEFAULT_WRAPPER_W_2W(Info_get_nkeys) |
| DEFAULT_WRAPPER_W_3W(Info_get_nthkey) |
| DEFAULT_WRAPPER_W_4W(Info_get_valuelen) |
| DEFAULT_WRAPPER_W_3W(Info_set) |
| /* DEFAULT_WRAPPER_W_2W(Init) */ |
| /* DEFAULT_WRAPPER_W_1W(Initialized) */ |
| DEFAULT_WRAPPER_W_4W(Init_thread) |
| DEFAULT_WRAPPER_W_6W(Intercomm_create) |
| DEFAULT_WRAPPER_W_3W(Intercomm_merge) |
| /* DEFAULT_WRAPPER_W_5W(Iprobe) */ |
| /* DEFAULT_WRAPPER_W_7W(Irecv) */ |
| /* DEFAULT_WRAPPER_W_7W(Irsend) */ |
| /* DEFAULT_WRAPPER_W_7W(Isend) */ |
| /* DEFAULT_WRAPPER_W_7W(Issend) */ |
| DEFAULT_WRAPPER_W_1W(Is_thread_main) |
| DEFAULT_WRAPPER_W_4W(Keyval_create) |
| DEFAULT_WRAPPER_W_1W(Keyval_free) |
| DEFAULT_WRAPPER_W_3W(Lookup_name) |
| DEFAULT_WRAPPER_W_1W(Op_c2f) |
| /* DEFAULT_WRAPPER_W_3W(Op_create) */ |
| DEFAULT_WRAPPER_W_2W(Open_port) |
| DEFAULT_WRAPPER_W_1W(Op_f2c) |
| DEFAULT_WRAPPER_W_1W(Op_free) |
| DEFAULT_WRAPPER_W_7W(Pack_external) |
| DEFAULT_WRAPPER_W_4W(Pack_external_size) |
| /* DEFAULT_WRAPPER_W_7W(Pack) */ |
| DEFAULT_WRAPPER_W_4W(Pack_size) |
| /* int MPI_Pcontrol(const int level, ...) */ |
| /* DEFAULT_WRAPPER_W_4W(Probe) */ |
| DEFAULT_WRAPPER_W_3W(Publish_name) |
| DEFAULT_WRAPPER_W_8W(Put) |
| DEFAULT_WRAPPER_W_1W(Query_thread) |
| DEFAULT_WRAPPER_W_7W(Recv_init) |
| /* DEFAULT_WRAPPER_W_7W(Recv) */ |
| /* DEFAULT_WRAPPER_W_7W(Reduce) */ |
| DEFAULT_WRAPPER_W_6W(Reduce_scatter) |
| DEFAULT_WRAPPER_W_5W(Register_datarep) |
| DEFAULT_WRAPPER_W_1W(Request_c2f) |
| DEFAULT_WRAPPER_W_1W(Request_f2c) |
| DEFAULT_WRAPPER_W_1W(Request_free) |
| DEFAULT_WRAPPER_W_3W(Request_get_status) |
| /* DEFAULT_WRAPPER_W_6W(Rsend) */ |
| DEFAULT_WRAPPER_W_7W(Rsend_init) |
| DEFAULT_WRAPPER_W_6W(Scan) |
| /* DEFAULT_WRAPPER_W_8W(Scatter) */ |
| DEFAULT_WRAPPER_W_9W(Scatterv) |
| DEFAULT_WRAPPER_W_7W(Send_init) |
| /* DEFAULT_WRAPPER_W_6W(Send) */ |
| /* DEFAULT_WRAPPER_W_12W(Sendrecv) */ |
| DEFAULT_WRAPPER_W_9W(Sendrecv_replace) |
| DEFAULT_WRAPPER_W_7W(Ssend_init) |
| /* DEFAULT_WRAPPER_W_6W(Ssend) */ |
| DEFAULT_WRAPPER_W_1W(Start) |
| DEFAULT_WRAPPER_W_2W(Startall) |
| DEFAULT_WRAPPER_W_2W(Status_c2f) |
| DEFAULT_WRAPPER_W_2W(Status_f2c) |
| DEFAULT_WRAPPER_W_2W(Status_set_cancelled) |
| DEFAULT_WRAPPER_W_3W(Status_set_elements) |
| /* DEFAULT_WRAPPER_W_4W(Testall) */ |
| DEFAULT_WRAPPER_W_5W(Testany) |
| /* DEFAULT_WRAPPER_W_3W(Test) */ |
| DEFAULT_WRAPPER_W_2W(Test_cancelled) |
| DEFAULT_WRAPPER_W_5W(Testsome) |
| DEFAULT_WRAPPER_W_2W(Topo_test) |
| DEFAULT_WRAPPER_W_1W(Type_c2f) |
| /* DEFAULT_WRAPPER_W_1W(Type_commit) */ |
| DEFAULT_WRAPPER_W_3W(Type_contiguous) |
| DEFAULT_WRAPPER_W_10W(Type_create_darray) |
| DEFAULT_WRAPPER_W_3W(Type_create_f90_complex) |
| DEFAULT_WRAPPER_W_2W(Type_create_f90_integer) |
| DEFAULT_WRAPPER_W_3W(Type_create_f90_real) |
| DEFAULT_WRAPPER_W_5W(Type_create_hindexed) |
| DEFAULT_WRAPPER_W_5W(Type_create_hvector) |
| DEFAULT_WRAPPER_W_4W(Type_create_keyval) |
| DEFAULT_WRAPPER_W_5W(Type_create_indexed_block) |
| DEFAULT_WRAPPER_W_5W(Type_create_struct) |
| DEFAULT_WRAPPER_W_7W(Type_create_subarray) |
| DEFAULT_WRAPPER_W_4W(Type_create_resized) |
| DEFAULT_WRAPPER_W_2W(Type_delete_attr) |
| DEFAULT_WRAPPER_W_2W(Type_dup) |
| /* DEFAULT_WRAPPER_W_2W(Type_extent) */ |
| /* DEFAULT_WRAPPER_W_1W(Type_free) */ |
| DEFAULT_WRAPPER_W_1W(Type_free_keyval) |
| DEFAULT_WRAPPER_W_1W(Type_f2c) |
| DEFAULT_WRAPPER_W_4W(Type_get_attr) |
| /* DEFAULT_WRAPPER_W_7W(Type_get_contents) */ |
| /* DEFAULT_WRAPPER_W_5W(Type_get_envelope) */ |
| DEFAULT_WRAPPER_W_3W(Type_get_extent) |
| DEFAULT_WRAPPER_W_3W(Type_get_name) |
| DEFAULT_WRAPPER_W_3W(Type_get_true_extent) |
| DEFAULT_WRAPPER_W_5W(Type_hindexed) |
| DEFAULT_WRAPPER_W_5W(Type_hvector) |
| DEFAULT_WRAPPER_W_5W(Type_indexed) |
| DEFAULT_WRAPPER_W_2W(Type_lb) |
| DEFAULT_WRAPPER_W_3W(Type_match_size) |
| DEFAULT_WRAPPER_W_3W(Type_set_attr) |
| DEFAULT_WRAPPER_W_2W(Type_set_name) |
| DEFAULT_WRAPPER_W_2W(Type_size) |
| DEFAULT_WRAPPER_W_5W(Type_struct) |
| DEFAULT_WRAPPER_W_2W(Type_ub) |
| DEFAULT_WRAPPER_W_5W(Type_vector) |
| /* DEFAULT_WRAPPER_W_7W(Unpack) */ |
| DEFAULT_WRAPPER_W_3W(Unpublish_name) |
| DEFAULT_WRAPPER_W_7W(Unpack_external) |
| /* DEFAULT_WRAPPER_W_3W(Waitall) */ |
| /* DEFAULT_WRAPPER_W_4W(Waitany) */ |
| /* DEFAULT_WRAPPER_W_2W(Wait) */ |
| DEFAULT_WRAPPER_W_5W(Waitsome) |
| DEFAULT_WRAPPER_W_1W(Win_c2f) |
| DEFAULT_WRAPPER_W_2W(Win_call_errhandler) |
| DEFAULT_WRAPPER_W_1W(Win_complete) |
| DEFAULT_WRAPPER_W_6W(Win_create) |
| DEFAULT_WRAPPER_W_2W(Win_create_errhandler) |
| DEFAULT_WRAPPER_W_4W(Win_create_keyval) |
| DEFAULT_WRAPPER_W_2W(Win_delete_attr) |
| DEFAULT_WRAPPER_W_1W(Win_f2c) |
| DEFAULT_WRAPPER_W_2W(Win_fence) |
| DEFAULT_WRAPPER_W_1W(Win_free) |
| DEFAULT_WRAPPER_W_1W(Win_free_keyval) |
| DEFAULT_WRAPPER_W_4W(Win_get_attr) |
| DEFAULT_WRAPPER_W_2W(Win_get_errhandler) |
| DEFAULT_WRAPPER_W_2W(Win_get_group) |
| DEFAULT_WRAPPER_W_3W(Win_get_name) |
| DEFAULT_WRAPPER_W_4W(Win_lock) |
| DEFAULT_WRAPPER_W_3W(Win_post) |
| DEFAULT_WRAPPER_W_3W(Win_set_attr) |
| DEFAULT_WRAPPER_W_2W(Win_set_errhandler) |
| DEFAULT_WRAPPER_W_2W(Win_set_name) |
| DEFAULT_WRAPPER_W_3W(Win_start) |
| DEFAULT_WRAPPER_W_2W(Win_test) |
| DEFAULT_WRAPPER_W_2W(Win_unlock) |
| DEFAULT_WRAPPER_W_1W(Win_wait) |
| /* double MPI_Wtick(void) */ |
| /* double MPI_Wtime(void) */ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- ---*/ |
| /*--- ---*/ |
| /*--- ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /*---------------------------------------------------------------*/ |
| /*--- end mpiwrap.c ---*/ |
| /*---------------------------------------------------------------*/ |